MSc C.K. Yang

PhD student
Electronic Instrumentation (EI), Department of Microelectronics

PhD thesis (May 2012): From MEMS to NEMS: Scaling Cantilever Sensors
Promotor: Paddy French

Publications

  1. High-Performance Flexible Strain Sensor Fabricated Using Laser Transmission Pyrolysis
    S. Wang; Huiru Yang; Qihang Zong; Qianming Huang; Chunjia Tan; Chenshan Gao; Shinzhen Li; Huaiyu Yem; Guoqi Zhang; Paddy French;
    IEEE Sensors Journal,
    Volume 24, pp. 7521-7529, 2024. DOI: doi: 10.1109/JSEN.2023.3337233
    Keywords: ... Laser transmission pyrolysis (LTP), metal film, polydimethylsiloxane (PDMS) pattering, stretchable strain sensors, ultraviolet (UV) laser..

    Abstract: ... n recent years, metal crack-based stretchable flexible strain sensors have attracted significant attention in wearable device applications due to their extremely high sensitivity. However, the tradeoff between sensitivity and detection range has been an intractable dilemma, severely limiting their practical applications. Herein, we propose a laser transmission pyrolysis (LTP) technology for fabricating high-performance flexible strain sensors based on (Au) metal cracks with the microchannel array on the polydimethylsiloxane (PDMS) surface. The fabricated flexible strain sensors exhibit high sensitivity [gauge factor (GF) of 2448], wide detection range (59% for tensile strain), precise strain resolution (0.1%), fast response and recovery times (69 and 141 ms), and robust durability (over 3000 cycles). In addition, experiment and simulation results reveal that introducing a microchannel array enables the stress redistribution strategy on the sensor surface, which significantly improves the sensing sensitivity compared to conventional flat surface sensors. Based on the excellent performance, the sensors are applied to detect subtle physiological signals, such as pulse and swallowing, as well as to monitor large-scale motion signals, such as knee flexion and finger bending, demonstrating their potential applications in health monitoring, human–machine interactions, and electronic skin.

  2. Sheet-on-sheet architectural assembly of MOF/graphene for high-stability NO sensing at room temperature
    Yanwei Chang; Jingxing Zhang; Ruofei Lu; Weiran Li; Yuchen Feng; Yixun Gao; Haihong Yang; Fengnan Wang; Hao Li; Yi-Kuen Lee; Patrick J. French; Ahmad M. Umar Siddiqui; Yao Wang; Guofu Zhou;
    Journal of Materials Chemistry C,
    Volume 12, pp. 7520-7531, 2024. DOI: DOI: 10.1039/d4tc00091a
    Abstract: ... Fractional exhaled nitric oxide (FeNO) can be used to describe inflammatory processes in the respiratory tract. Directly detecting ppb-level nitric oxide (NO) with chemiresistive sensors at room temperature faces the challenges of simultaneously obtaining high sensitivity and high stability for sensors. We aimed to improve the stability and sensitivity of NO sensors. We assembled sheet-like porphyrin-based MOF DLS-2D-Co-TCPP(Fe) with 5-aminonaphthalene-1-sulfonic acid–rGO (ANS–rGO) nanosheets through coordination interactions. In this way, we offered a room-temperature NO-sensing hybrid, DLS-2D-Co-TCPP(Fe)/ANS–rGO, with a sheet-on-sheet (SOS) architectural heterojunction. The DLS-2D-Co-TCPP(Fe)/ANS–rGO-based sensor demonstrated superior NO-sensing performance, including high sensitivity (Ra/Rg = 1.33, 250 ppb), reliable repeatability, high selectivity, and fast response/recovery (150 s/185 s, 1 ppm) at a sensing concentration from 100 ppb to 10 ppm at room temperature. The obtained sensor showed high stability, retaining >85% of its initial response after 60 days. Designing NO-responsive Fe–N4 active units containing MOF nanosheets, along with constructing a heterojunction with an SOS architecture to facilitate carrier migration, collaboratively dominated the superior performance of synthesized NO sensors. This work provides a strategy for designing SOS architectural heterojunctions to obtain high-performance MOF-based gas-sensing materials.

  3. Chitosan oligosaccharide laser lithograph: a facile route to porous graphene electrodes for flexible on-chip microsupercomputers
    QM Huang; HR Yang; SG Wang; X Liu; CJ Tanand; QH Zong; CS Gao; SZ Li; PJ French; HY Ye;
    ACS Applied Materials & Interface,
    Volume 16, 2024. DOI: doi: 10.1021/ascami.4c2139

  4. FLEXIBLE HIGH-SENSITIVITY STRAIN SENSOR FABRICATED WITH PDMS MICRO-CHANNEL ARRAY USING LASER TRANSMISSION PYROLYSIS TECHNOLOGY
    Shaogang Wang; Qihang Zong; Huiru Yang; Qianming Huang; Huaiyu Ye; Paddy French;
    In IEEE (Ed.), IEEE MEMS 2024,
    IEEE, January 2024.
    Keywords: ... Stretchable strain sensor, Metal film, UV laser, Laser transmission pyrolysis, PDMS pattering.

    Abstract: ... In recent years, flexible strain sensors based on metal cracks have garnered significant interest for their exceptional sensitivity. However, striking a balance between sensitivity and detection range remains a significant challenge, which often limits its wider application. Herein, we introduce an innovative laser transmission pyrolysis technology to fabricate high performance flexible strain sensors based on (Au) metal cracks with a microchannel array on the PDMS surface. The fabricated flexible strain sensors exhibit high sensitivity, wide detection range, precise strain resolution,fast response and recovery times, and robust durability. Furthermore, this technology has potential applications in microfluidics, microelectromechanical systems and optical sensing.

  5. Advanced NO2 Gas Sensor Fabrication through UV Laser-Induced Selective Reduction Laser Sintering
    Shaogang Wang; Qihang Zong; Huiru Yang; Qianming Huang; Huaiyu Ye; Paddy French;
    In IEEE NEMS 2024,
    Kyoto, Japan, 2024.

  6. Chitosan Oligosaccharide Laser Lithograph: A Facile Route to Porous Graphene Electrodes for Flexible On-Chip Microsupercapacitors
    Qian-Ming Huang; Huiru Yang; Shaogang Wang; Guoqi Zhang; Paddy French; Huaiyu Ye;
    In Proceedings IEEE NEMS 2024,
    IEEE, IEEE, May 2024.

  7. A Plant-inspired Light Transducer for High-performance Near-infrared Light Mediated Gas Sensing
    Hongping Liang; Xin Guo; Lanpeng Guo; Siying Liu; Qiuqiang Zhan; Haihong Yang; Hao Li; Nicolaas Frans de Rooij; Yi-Kuen Lee; Paddy J. French; Yao Wang; Guofu Zhou;
    Advanced Functional Materials,
    Issue 2215099, pp. 10, 2023. DOI: 10.1002/adfm.202215099
    Abstract: ... Constructing near-infrared light (NIR) light-enhanced room temperature gas sensors is becoming more promising for practical application. In this study, learning from the structure and photosynthetic process of chlorophyll thylakoid membranes in plants, the first “Thylakoid membrane” structural formaldehyde (HCHO) sensor is constructed by matching the upconversion emission of the lanthanide-doped upconversion nanoparticles (UCNPs) and the UV–vis adsorp- tion of the as-prepared nanocomposites. The NIR-mediated sensor exhibits excellent performances, including ultra-high response (Ra / Rg = 2.22, 1 ppm), low practical limit of detection (50 ppb), reliable repeatability, high selectivity,and broadband spectral response. The practicality of the NIR-mediated gas sensor is confirmed through the remote and external stimulation test. A study of sensing mechanism demonstrates that it is the UCNPs-based light transducer produces more light-induced oxygen species for gas response in the process of non-radiative/radiative energy transfer, playing a key role in significantly improving the sensing properties of the sensor. The universality of NIR-mediated gas sensors based on UCNPs is verified using ZnO, In2O3, and SnO2 systems. This work paves a way for fabricating high-performance NIR-mediated gas sensors and will expand the application fields of NIR light.

  8. Patching sulfur vacancies: A versatile approach for achieving ultrasensitive gas sensors based on transition metal dichalcogenides
    Xiangcheng Liu; Yue Niu; Duo Jin; Junwei Zeng; Wanjiang Li; Lirong Wang; Zhipeng Hou; Yancong Feng; Hao Li; Haihong Yang; Yi-Kuen Lee; Paddy J. French; Yao Wang; Guofu Zhou;
    Journal of Colloid and Interface Science,
    Volume 649, pp. 909-917, 2023. DOI: https://doi.org/10.1016/j.jcis.2023.06.092.
    Keywords: ... 2D materials Transition metal dichalcogenides Gas sensing Patching sulfur vacancies N-doping.

    Abstract: ... Transition metal dichalcogenides (TMDCs) garner significant attention for their potential to create high-performance gas sensors. Despite their favorable properties such as tunable bandgap, high carrier mobility, and large surface-to-volume ratio, the performance of TMDCs devices is compromised by sulfur vacancies, which reduce carrier mobility. To mitigate this issue, we propose a simple and universal approach for patching sulfur vacancies, wherein thiol groups are inserted to repair sulfur vacancies. The sulfur vacancy patching (SVP) approach is applied to fabricate a MoS2-based gas sensor using mechanical exfoliation and all-dry transfer methods, and the resulting 4-nitrothiophenol (4NTP) repaired molybdenum disulfide (4NTP-MoS2) is prepared via a sample solution process. Our results show that 4NTP-MoS2 exhibits higher response (increased by 200 %) to ppb-level NO2 with shorter response/recovery times (61/82 s) and better selectivity at 25 °C compared to pristine MoS2. Notably, the limit of detection (LOD) toward NO2 of 4NTP-MoS2 is 10 ppb. Kelvin probe force microscopy (KPFM) and density functional theory (DFT) reveal that the improved gas sensing performance is mainly attributed to the 4NTP-induced n-doping effect on MoS2 and the corresponding increment of surface absorption energy to NO2. Additionally, our 4NTP-induced SVP approach is universal for enhancing gas sensing properties of other TMDCs, such as MoSe2, WS2, and WSe2.

  9. Rapid Fabrication of High-Performance Flexible Pressure Sensors Using Laser Pyrolysis Direct Writing
    Shaogang Wang; Qihang Zong; Huiru Yang; Chunjian Tan; Qianming Huang; Xu Liu; Guoqi Zhang; Paddy French; Huaiyu Ye;
    Applied Materials and Interfaces,
    2023. DOI: https://doi.org/10.1021/acsami.3c04290
    Keywords: ... flexible pressure sensor, UV laser, laser direct writing, continuous laser pyrolysis, PDMS, micro-truncated pyramid.

    Abstract: ... The fabrication of flexible pressure sensors with low cost, high scalability, and easy fabrication is an essential driving force in developing flexible electronics, especially for high-performance sensors that require precise surface microstructures. However, optimizing complex fabrication processes and expensive microfabrication methods remains a significant challenge. In this study, we introduce a laser pyrolysis direct writing technology that enables rapid and efficient fabrication of high-performance flexible pressure sensors with a microtruncated pyramid array. The pressure sensor demonstrates exceptional sensitivities, with the values of 3132.0, 322.5, and 27.8 kPa−1 in the pressure ranges of 0−0.5, 0.5−3.5, and 3.5−10 kPa, respectively. Furthermore, the sensor exhibits rapid response times (loading: 22 ms, unloading: 18 ms) and exceptional reliability, enduring over 3000 pressure loading and unloading cycles. Moreover, the pressure sensor can be easily integrated into a sensor array for spatial pressure distribution detection. The laser pyrolysis direct writing technology introduced in this study presents a highly efficient and promising approach to designing and fabricating high-performance flexible pressure sensors utilizing micro-structured polymer substrates.

  10. A bio-inspired and switchable H+/OH− ion-channel for room temperature exhaled CO2 chemiresistive sensing
    Honghao Chen; Ruofei Lu; Yixun Gao; Xiaorui Yue; Haihong Yang; Hao Li; Yi-Kuen Lee; Paddy J. French; Yao Wang; Guofu Zhouab;
    Journal of Materials Chemistry A,
    Volume 11, Issue 21959-21971, 2023. DOI: https://doi.org/10.1039/D3TA04685K
    Abstract: ... Inspired by the CO2-induced reversible activation mechanism of the slow anion channel 1 (SLAC1) in plant stomatal guard cells during plant photosynthesis, we designed and prepared a CO2- switchable H+/OH− ion channel (CSPH ion channel). A high-performance chemiresistive room temperature CO2 sensor has been prepared based on this CSPH ion channel. The obtained CO2 room temperature sensor γ-CD-MOF@RhB exhibits high sensitivity (Rg/R0 = 1.50, 100 ppm), excellent selectivity, good stability (less than 5% reduction in 30 days response value), and 99.96% consistency with commercial infrared CO2 meter. The practical limit of detection (pLOD) of the γ-CD-MOF@RhB sensor reaches 10 ppm at room temperature toward CO2, which is the lowest for reported MOF-derived chemiresistive room temperature CO2 sensors so far. Ion conduction mechanism studies have shown that the CSPH ion channel behaves as a CO2-switchable H+/OH− ion channel with a switching point of approximately 60 000 ppm CO2. As an application attempt, the fabricated low pLOD CO2 sensor has been used for human exhaled CO2 detection to compare CO2 concentration in the breath of individuals before and after exercise and COVID-19. It was also logically indicated that the average concentration of human exhaled CO2 after COVID-19 recovery is different for undiseased subjects.

  11. Self-Assembled Lenalidomide/AIE Prodrug Nanobomb for Tumor Imaging and Cancer Therapy
    Zhijian Mai; Nengjie Cao; Erzhuo Cheng; Zhiwen Zeng; Yancong Feng; Yao Wang; Paddy J. French; Yi-Kuen Lee; Haihong Yang; Bin Yang; Hao Li; Guofu Zhou;
    Applied Nano Materials,
    Volume 6, pp. 19807-19817, 2023. DOI: https://doi.org/10.1021/acsanm.3c03611
    Keywords: ... small-molecule prodrug, Schiff base linkage, aggregation-induced emission, self-assembly, tumor-targeted diagnosis and therapy.

    Abstract: ... To develop multifunctional small-molecule prodrugs is highly desirable for cancer treatment but remains challenging in intrinsic traceability. As an acid-cleavable linkage, a Schiff bases benefiting from its distinctive fluorescence quenching ability was selected to prepare a small-molecule prodrug with cancer-targeted and self-indicating. In this study, we designed and developed a multifunctional self-assembled nanobomb of amphiphilic TPE-Lenalidomide prodrug, which comprises a hydrophobic aggregation-induced emission (AIE) probe 4-(1,2,2- triphenylvinyl)benzaldehyde (TPE-CHO) and a hydrophilic anticancer drug Lenalidomide via a Schiff base linkage. We investigated the synergistic effect of d-PET and CN isomerization which would keep the fluorescence of TPE-Lenalidomide in the “always off” state by density functional theory (DFT) calculation. Once reaching the pathological site, such a vesicular nanobomb of TPE-Lenalidomide will be acidolyzed to release the AIE probe and Lenalidomide molecules simultaneously, consequently realizing high-efficiency effects of tumor imaging and cancer therapy (cell viability: normal cell L929, ∼79.49%; cancer cell 4T1, ∼27.08%; p = 0.000118). This work may pave an avenue to prepare small-molecule prodrugs for tumor-targeted diagnosis and cancer therapy.

  12. A Level Shifter With Almost Full Immunity to Positive dv/dt for Buck Converters
    Yang, Y.; Huang, M.; Du, S.; Martins, R. P.; Lu, Y.;
    IEEE Transactions on Circuits and Systems I: Regular Papers,
    Volume 70, Issue 11, pp. 4595-4604, 2023. DOI: 10.1109/TCSI.2023.3307869

  13. High-Performance Flexible Strain Sensor Fabricated Using Laser Transmission Pyrolysis
    Shaogang Wang; Huiru Yang; Qihang Zong; Qianming Huang; Chunjian Tan; Chenshan Gao; Shizhen Li; Huaiyu Ye; Guoqi Zhangand; Paddy French;
    IEEE Sensors Journal,
    2023. DOI: doi: 10.1109/JSEN.2023.3337233
    Keywords: ... Stretchable strain sensors, Metal film, UV laser, Laer transmission pyrolysis, PDMS pattering..

    Abstract: ... In recent years, metal crack-based stretchable flexible strain sensors have attracted significant attention in wearable device applications due to their extremely high sensitivity. However, the trade-off between sensitivity and detection range has been an intractable dilemma, severely limiting their practical applications. Herein, we propose a laser transmission pyrolysis technology for fabricating high-performance flexible strain sensors based on (Au) metal cracks with the microchannel array on the polydimethylsiloxane (PDMS) surface. The fabricated flexible strain sensors exhibit high sensitivity (gauge factor of 2448), wide detection range (59% for tensile strain), precise strain resolution (0.1%), fast response and recovery times (69 ms and 141 ms), and robust durability (over 3000 cycles). In addition, experiment and simulation results reveal that introducing a microchannel array enables the stress distribution strategy on the sensor surface, which significantly improves the sensing sensitivity compared to conventional flat surface sensors. Based on the excellent performance, the sensors are applied to detect subtle physiological signals such as pulse and swallowing, as well as to monitor large-scale motion signals such as knee flexion and finger bending, demonstrating their potential applications in health monitoring, human-machine interactions, and electronic skin

  14. Construction of Flower-like ZnO Nanoclusters on Functionalized Graphene Nanosheets for Room Temperature Formaldehyde Sensing
    Hu, Huiyun; Guo, Lanpeng; Liang, Hongping; Lu, Ruofei; Lv, Sitao; Wang, Chenxu; Liu, Liming; Yang, Haihong; Lee, Yi-Kuen; French, Paddy J.; Li, Hao; Wang, Yao; Zhou, Guofu;
    Current Chinese Science,
    Volume 3, pp. 275-284, 2023. DOI: https://doi-org.tudelft.idm.oclc.org/10.2174/221029810366623
    Keywords: ... ZnO, graphene, dipole, formaldehyde, room temperature gas sensor, HCHO sensor.

    Abstract: ... Background: Formaldehyde (HCHO) is one of the sources of indoor air pollution and a recognized carcinogenic gas, which sets a huge threat to human health. Therefore, it is urgent to develop a formaldehyde gas sensor with high efficiency, low consumption, and low limit of detection. Methods: With solvothermal and supramolecular assembly methods, we fabricate a nanocom-posite of ZnO/5-aminonaphthalene-1-sulfonic acid (ANS)-reduced graphene oxide (rGO) through in situ assembling flower-like ZnO nanoclusters on ANS-modified graphene nanosheets for room temperature formaldehyde detection. Results: The flower-like ZnO/ANS-rGO based gas sensor exhibits high response (32%, 5 ppm), ultra-fast response/recovery times (18/23 s), high selectivity, long-term stability and a low practical limit of detection (pLOD) of 1 ppm toward HCHO at room temperature, offering significant advantages and competitiveness in chemiresistive room temperature HCHO sensors. Conclusion: The unique flower-like nanostructure of ZnO and the functionalization with ANS molecules jointly improved the HCHO sensing performance of the composite at room temperature. This work provides a new approach to designing and preparing high-performance room temperature gas sensing materials

  15. Simulation, Prediction, and Verification of the Corrosion Behavior of Cu-Ag Composite Sintered Paste for Power Semiconductor Die-Attach Applications
    Xinyue Wang; Zhoudong Yang; Pan Liu; Guoqi Zhang; Jing Zhang;
    In Proc. of Electronic Components and Technology Conference (ECTC),
    2023.

  16. Carbon Dots Embedded in Cellulose Film: Programmable, Performance-Tunable, and Large-Scale Subtle Fluorescent Patterning by in Situ Laser Writing
    Yuanyuan Guo; Quan Wang; Hao Li; Yixun Gao; Xuezhu Xu; Biao Tang; Yao Wang; Bai Yang; Yi-Kuen Lee; Paddy J. French; Guofu Zhou;
    ACS Nano,
    Volume 16, pp. 11, 2022. DOI: 10.1021/acsnano.1c09999
    Keywords: ... fluorescent pattern, tunable intensity, surface microstructure, laser direct writing, carbon dots.

    Abstract: ... Fluorescent patterns with multiple functions enable highsecurity anti-counterfeiting labels. Complex material synthesis and patterning processes limit the application of multifunctional fluorescent patterns, so the technology of in situ fluorescent patterning with tunable multimodal capabilities is becoming more necessary. In this work, an in situ fluorescent patterning technology was developed using laser direct writing on solid cellulose film at ambient conditions without masks. The fluorescent intensity and surface microstructure of the patterns could be adjusted by programmable varying of the laser parameters simultaneously. During laser direct writing, carbon dots are generated in situ in a cellulose ester polymer matrix, which significantly simplifies the fluorescent patterning process and reduces the manufacturing cost. Interestingly, the tunable fluorescent intensity empowers the fabrication of visual stereoscopic fluorescent patterns with excitation dependence, further improving its anti-counterfeiting performance. The obtained fluorescent patterns still show ultrahigh optical properties after being immersed in an acid/base solution (pH 5−12) over one month. In addition, the anti-UV performance of the obtained laser-patterned film with transmittance around 90% is comparable to that of commercial UV-resistant films. This work provided an advanced and feasible approach to fabricating programmable, performance-tunable, subtle fluorescent patterns in large-scale for industrial application.

  17. Review of Scaling effects on physical properties and practicalities of cantilever sensors
    C-K Yang; E van der Drift; PJ French;
    IOP JMM,
    Volume 32, Issue 103002, 2022. DOI: https://doi.org/10.1088/1361-6439/ac8559
    Abstract: ... Reducing sensor dimension is a good way to increase system sensitivity and response. However the advantages gained must be weighed against other effects which also became significant during the scaling process. In this paper, the scaling effect of cantilever sensors from micrometer to nanometer regimes is reviewed. Changes in the physical properties such as Q-factor, Young's modulus, noise and nonlinear deflections, as well as effects on practical sensor applications such as sensor response and sensor readouts, are presented. Since cantilever is an elemental transducer and device building block, its scaling effects can be further extrapolated to other sensing systems and applications.

  18. A Crystal-Less Clock Generation Technique for Battery-Free Wireless Systems
    Chang, Z.; Zhang, Y.; Yang, C.; Luo, Y.; Du, S.; Chen, Y.; Zhao, B.;
    IEEE Transactions on Circuits and Systems I: Regular Papers,
    pp. 1-12, 2022. DOI: 10.1109/TCSI.2022.3201196

  19. Radar-based Human Activities Classification with Complex-valued Neural Networks
    Yang, Ximei; Guendel, Ronny G.; Yarovoy, Alexander; Fioranelli, Francesco;
    In 2022 IEEE Radar Conference (RadarConf22),
    pp. 1-6, 2022. DOI: 10.1109/RadarConf2248738.2022.9763903

  20. Simplicial Convolutional Neural Networks
    Yang, Maosheng; Isufi, E.; Leus, G.;
    In Proc. of IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP),
    Singapore, pp. 8847--8851, May 2022. DOI: 10.1109/ICASSP43922.2022.9746017

  21. Simulation framework for activity recognition and benchmarking in different radar geometries
    Boyu Zhou; Yier Lin; Julien Le Kernec; Shufan Yang; Francesco Fioranelli; Olivier Romain; Zhiqin Zhao;
    IET Radar, Sonar and Navigation,
    Volume n/a, Issue n/a, 2021. DOI: https://doi.org/10.1049/rsn2.12049
    document

  22. Practical Investigation of a MIMO radar system capabilities for small drones detection
    Yang, Fawei; Xu, Feng; Fioranelli, Francesco; Le Kernec, Julien; Chang, Shaoqiang; Long, Teng;
    IET Radar, Sonar \& Navigation,
    2021. DOI: https://doi.org/10.1049/rsn2.12082
    document

  23. A One-Class Classification Method for Human Gait Authentication Using Micro-Doppler Signatures
    Ji, Haoran; Hou, Chunping; Yang, Yang; Fioranelli, Francesco; Lang, Yue;
    IEEE Signal Processing Letters,
    Volume 28, pp. 2182-2186, 2021. DOI: 10.1109/LSP.2021.3122344

  24. Room temperature ppt-level NO2 gas sensor based on SnOx/SnS nanostructures with rich oxygen vacancies
    Hongyu Tang; Chenshan Gao; Huiru Yang; Leandro Nicolas Sacco; Robert Sokolovskij; Hongze Zheng; Huaiyu Ye; Sten Vollebregt; Hongyu Yu; Xuejun Fan; Guoqi Zhang;
    2D Materials,
    2021. DOI: 10.1088/2053-1583/ac13c1

  25. A DFT study of As doped WSe2: A NO2 sensing material with ultra-high selectivity in the atmospheric environment
    Zhaokun Wang; Chenshan Gao; Shuhan Hou; Huiru Yang; Ziyuan Shao; Siyuan Xu; Huaiyu Ye;
    Materials Today Communications,
    Volume 28, pp. 102654, 2021. DOI: 10.1016/j.mtcomm.2021.102654
    document

  26. Investigating the Electrochemical Performance of Smart Self-Powered Bionic Skin Fragment Based on Bioelectricity Generation
    Dai, H.; Chen, Y.; Dai, W.; Hu, Z.; Xie, F.; Xu, W.; Cui, Z.; Wei, X.; Chen, Z.; Yang, B.; Zhang, W.; Wei, W.; Guo, R.; Zhang, GuoQi;
    Advanced Materials Technologies,
    Volume 6, Issue 3, 2021. DOI: 10.1002/admt.202000848
    document

  27. Node-Adaptive Regularization for Graph Signal Reconstruction
    Yang, Maosheng; Coutino, M.; Leus, G.; Isufi, E.;
    IEEE Open Journal of Signal Processing,
    Volume 2, pp. 85--98, 2021. DOI: 10.1109/OJSP.2021.3056897

  28. An LSTM Approach to Short-range personnel recognition using Radar Signals
    Li, Zhenghui; Le Kernec, Julien; Fioranelli, Francesco; Romain, Olivier; Zhang, Lei; Yang, Shufan;
    In 2021 IEEE Radar Conference (RadarConf21),
    pp. 1-6, 2021. DOI: 10.1109/RadarConf2147009.2021.9455218

  29. Radar-based hierarchical human activity classification
    X. Li; F. Fioranelli; S. Yang; O. Romain; J. Le Kernec;
    In IET International Radar Conference (IET IRC 2020),
    pp. 1373-1379(6), January 2021. DOI: 10.1049/icp.2021.0566

  30. Interferometric radar for activity recognition and benchmarking in different radar geometries
    B. Zhou; J. Le Kernec; S. Yang; F. Fioranelli; O. Romain; Z. Zhao;
    In IET International Radar Conference (IET IRC 2020),
    pp. 1515-1520(5), January 2021. DOI: 10.1049/icp.2021.0571

  31. Multi-domains based human activity classification in radar
    Z. Li; F. Fioranelli; S. Yang; L. Zhang; O. Romain; Q. He; G. Cui; J. Le Kernec;
    In IET International Radar Conference (IET IRC 2020),
    pp. 1744-1749(5), January 2021. DOI: 10.1049/icp.2021.0557

  32. Human activity classification using radar signal and RNN networks
    H. Jiang; F. Fioranelli; S. Yang; O. Romain; J. Le Kernec;
    In IET International Radar Conference (IET IRC 2020),
    pp. 1595-1599(4), January 2021. DOI: 10.1049/icp.2021.0556

  33. Finite Impulse Response Filters for Simplicial Complexes
    Yang, Maosheng; Isufi, E.; Schaub, M.T.; Leus, G.;
    In Proc. of European Signal Processing Conference (EUSIPCO),
    Dublin, Ireland, pp. 2005--2009, August 2021. DOI: 10.23919/EUSIPCO54536.2021.9616185

  34. Topological Volterra Filters
    Leus, G.; Yang, Maosheng; Coutino, M.; Isufi, E.;
    In Proc. of IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP),
    Toronto, Ontario, Canada, pp. 5385--5399, June 2021. DOI: 10.1109/ICASSP39728.2021.9414275

  35. Human Motion Recognition With Limited Radar Micro-Doppler Signatures
    X. Li; Y. He; F. Fioranelli; X. Jing; A. Yarovoy; Y. Yang;
    IEEE Transactions on Geoscience and Remote Sensing,
    2020. DOI: 10.1109/TGRS.2020.3028223

  36. The Impact of Gate Recess on the H2 Detection Properties of Pt-AlGaN/GaN HEMT Sensors
    Robert Sokolovskij; Jian Zhang; Hongze Zheng; Wenmao Li; Yang Jiang; Gaiying Yang; Hongyu Yu; Pasqualina M. Sarro; Guoqi Zhang;
    IEEE Sensors,
    Volume 20, Issue 16, pp. 8947-8955, 2020.
    document

  37. An effective optics-electrochemistry approach to random packing density of non-equiaxed ellipsoids
    Hanqing Dai; Wenqian Xu; Zhe Hu; Yuanyuan Chen; Bobo Yang; Zhiyong Xiong; Danlu Su; Xian Wei; Shiliang Mei; Zhihao Chen; Min Li; Wanlu Zhang; Fengxian Xie; Wei Wei; Ruiqian Guo; GuoQi Zhang;
    Materialia,
    Volume 12, pp. 100750, 2020. DOI: 10.1016/j.mtla.2020.100750
    document

  38. Effective Approaches of Improving the Performance of Chalcogenide Solid Electrolytes for All-Solid-State Sodium-Ion Batteries
    Dai, Hanqing; Xu, Wenqian; Hu, Zhe; Chen, Yuanyuan; Wei, Xian; Yang, Bobo; Chen, Zhihao; Gu, Jing; Yang, Dan; Xie, Fengxian; Zhang, Wanlu; Guo, Ruiqian; Zhang, Guoqi; Wei, Wei;
    Frontiers in Energy Research,
    Volume 8, pp. 97, 2020. DOI: 10.3389/fenrg.2020.00097
    document

  39. Entropy generation methodology for defect analysis of electronic and mechanical components-A review
    Miao Cai; Peng Cui; Yikang Qin; Daoshuang Geng; Qiqin Wei; Xiyou Wang; Daoguo Yang; Guoqi Zhang;
    Entropy: international and interdisciplinary journal of entropy and information studies,
    Volume 22, Issue 2, February 2020. DOI: 10.3390/e22020254

  40. Elderly Care: Using Deep Learning for Multi-Domain Activity Classification
    S. Li; M. Jia; J. L. Kernec; S. Yang; F. Fioranelli; O. Romain;
    In 2020 International Conference on UK-China Emerging Technologies (UCET),
    August 2020. DOI: 10.1109/UCET51115.2020.9205464

  41. Human activity classification with radar signal processing and machine learning
    M. Jia; S. Li; J. L. Kernec; S. Yang; F. Fioranelli; O. Romain;
    In 2020 International Conference on UK-China Emerging Technologies (UCET),
    August 2020. DOI: 10.1109/UCET51115.2020.9205461

  42. Node varying regularization for graph signals
    Maosheng Yang; M. Coutino; E. Isufi; G. Leus;
    In 29th European Signal Processing Conference (EUSIPCO 2020),
    Amsterdam (Netherlands), EURASIP, pp. 845-849, August 2020.
    document

  43. Learning connectivity and higher-order interactions in radial distribution grids
    Qiuling Yang; M. Coutino; Gang Wang; G.B. Giannakis; G. Leus;
    In ICASSP 2020 - 2020 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP),
    pp. 5555-5559, 2020. DOI: 10.1109/ICASSP40776.2020.9054665
    document

  44. Radar sensing for healthcare
    Fioranelli, Francesco; Shah, Syed Aziz; Li, Haobo; Shrestha, Aman; Yang, Shufan; Le Kernec, Julien;
    ELECTRONICS LETTERS,
    Volume 55, Issue 19, pp. 1022-1024, SEP 19 2019. DOI: 10.1049/el.2019.2378

  45. First principles study of gas molecules adsorption on monolayered β-SnSe
    Liu, T.; Qin, H.; Yang, D.; GuoQi Zhang;
    Coatings,
    2019. DOI: 10.3390/COATINGS9060390

  46. Tunable electronic and optical properties of the WS2/IGZO heterostructure via an external electric field and strain: A theoretical study
    Hongyu Tang; Chunjian Tan; Huiru Yang; Kai Zheng; Yutao Li; Huaiyu Ye; Xianping Chen; Xuejun Fan; Tianling Ren; Kuochi Zhang;
    Physical Chemistry Chemical Physics,
    pp. 14713-14721, 2019. DOI: 10.1039/c9cp02084e

  47. Effects of Thermal Reflowing Stress on Mechanical Properties of Novel SMT-SREKs
    Cai, M.; Liang, Y.; Yun, M.; Chen, X-Y.; Yan, H.; Yu, Z.; Yang, D.; GuoQi Zhang;
    IEEE Access,
    2019. DOI: 10.1109/ACCESS.2019.2900361

  48. A first-principles study: Adsorption of small gas molecules on GeP3 monolayer
    Niu, F.; Cai, M.; Pang, J.; Li, X.; GuoQi Zhang, G.; Yang, D.;
    Surface Science,
    2019. DOI: 10.1016/j.susc.2019.02.008

  49. First-principles investigation of the adsorption behaviors of CH 2 O on BN, AlN, GaN, InN, BP, and P monolayers
    Feng, C.; Qin, H.; Yang, D.; GuoQi Zhang;
    Materials,
    2019. DOI: 10.3390/ma12040676

  50. A DFT study of In doped Tl2O: a superior NO2 gas sensor with selective adsorption and distinct optical response
    Chenshan Gao; Yingying Zhang; Huiru Yang; Yang Liu; Yufei Liu; Jihe Dua; Huaiyu Ye; GuoQi Zhang;
    Applied Surface Science,
    2019. DOI: 10.1016/j.apsusc.2019.07.067

  51. Human Activities Classification in a Complex Space Using Raw Radar Data
    S. Yang; J. L. Kernec; F. Fioranelli; O. Romain;
    In 2019 International Radar Conference (RADAR),
    pp. 1-4, 2019. DOI: 10.1109/RADAR41533.2019.171367

  52. Human Activity Classification With Radar: Optimization and Noise Robustness With Iterative Convolutional Neural Networks Followed With Random Forests
    Lin, Yier; Le Kernec, Julien; Yang, Shufan; Fioranelli, Francesco; Romain, Olivier; Zhao, Zhiqin;
    IEEE SENSORS JOURNAL,
    Volume 18, Issue 23, pp. 9669-9681, DEC 1 2018. DOI: 10.1109/JSEN.2018.2872849

  53. Germanene on single layer ZnSe substrate: Novel electronic and optical properties
    H. Y. Ye; F. F. Hu; Hongyu Tang; L. W. Yang; X. P. Chen; L. G. Wang; GuoQi Zhang;
    Physical Chemistry Chemical Physics,
    Volume 20, Issue 23, pp. 16067-16076, 2018.

  54. High Selective Gas Detection for small molecules based on Germanium selenide monolayer
    Liu, L.; Yang, Q.; Wang, Z.; Ye, H.; Chen, X.; Fan, X.; GuoQi Zhang;
    Applied Surface Science,
    pp. 575-581, 2018. DOI: 10.1016/j.apsusc.2017.10.084

  55. Influence of pressure on the mechanical and electronic properties of wurtzite and zinc-blende gaN crystals
    Qin, H.; Kuang, T.; Luan, X.; Li, W.; Xiao, J.; Zhang, P.; Yang, D.; GuoQi Zhang;
    Crystals,
    2018. DOI: 10.3390/cryst8110428

  56. The effects of graphene stacking on the performance of methane sensor: A first-principles study on the adsorption, band gap and doping of graphene
    Yang, N.; Yang, D.; GuoQi Zhang; Chen, L.; Liu, D.; Cai, M.; Fan, X.;
    Sensors,
    2018. DOI: 10.3390/s18020422

  57. Promoting sensitivity and selectivity of HCHO sensor based on strained InP3 monolayer: A DFT study
    Yang, H.; Wang, Z.; Ye, H.; Zhang, K.; Chen, X.; GuoQi Zhang;
    Applied Surface Science,
    pp. 554-561, 2018. DOI: 10.1016/j.apsusc.2018.08.014

  58. Radar for assisted living in the context of Internet of Things for Health and beyond
    Le Kernec, Julien; Fioranelli, Francesco; Yang, Shufan; Lorandel, Jordane; Romain, Olivier;
    In PROCEEDINGS OF THE 2018 26TH IFIP/IEEE INTERNATIONAL CONFERENCE ON VERY LARGE SCALE INTEGRATION (VLSI-SOC),
    IFIP; IEEE; IEEE Circuits \& Syst Soc; IEEE Council Elect Design Automat; Synopsys; ACM Special Interest Grp Design Automat; Univ Verona; AICA; Univ Verona, Comp Sci Dept, pp. 163-167, 2018. 26th IFIP/IEEE International Conference on Very Large Scale Integration (VLSI-SoC), Verona, ITALY, OCT 08-10, 2018.

  59. Activity Classification Using Raw Range and I \& Q Radar Data With Long Short Term Memory Layers
    Loukas, Charalampos; Fioranelli, Francesco; Le Kernec, Julien; Yang, Shufan;
    In 2018 16TH IEEE INT CONF ON DEPENDABLE, AUTONOM AND SECURE COMP, 16TH IEEE INT CONF ON PERVAS INTELLIGENCE AND COMP, 4TH IEEE INT CONF ON BIG DATA INTELLIGENCE AND COMP, 3RD IEEE CYBER SCI AND TECHNOL CONGRESS (DASC/PICOM/DATACOM/CYBERSCITECH),
    IEEE; IEEE Comp Soc; IEEE Tech Comm Scalable Comp; IEEE Syst Man \& Cybernet, Tech Comm Cybermat; IEEE Computat Intelligence Soc, Smart World Tech Comm, pp. 441-445, 2018. 16th IEEE Int Conf on Dependable, Autonom and Secure Comp/16th IEEE Int Conf on Pervas Intelligence and Comp/4th IEEE Int Conf on Big Data Intelligence and Comp/3rd IEEE Cyber Sci and Technol Congress (DASC/PiCom/DataCom/CyberSciTech), Athens, GREECE, AUG. DOI: 10.1109/DASC/PiCom/DataCom/CyberSciTec.2018.00088

  60. Interfacial Failure Characterization of Electronic Packaging Component Using a Multiscale Modelling Approach
    Zhen Cui; Yingying Zhang; Qun Yang; GuoQi Zhang; Xianping Chen;
    In IEEE 2nd Electron Devices Technology and Manufacturing Conference (EDTM),
    2018. DOI: 10.1109/EDTM.2018.8421434

  61. A Precision Capacitance-to-Digital Converter with 16.7-bit ENOB and 7.5 ppm/°C Thermal Drift
    R. Yang; M. A. P. Pertijs; S. Nihtianov;
    IEEE Journal of Solid-State Circuits,
    Volume 52, Issue 11, pp. 3018-3031, November 2017. DOI: 10.1109/jssc.2017.2734900
    Abstract: ... This paper presents a high-precision capacitance-to-digital converter (CDC) for displacement measurement in advanced industrial applications, based on a charge-balancing third-order delta–sigma modulator. To achieve high precision, this CDC employs a precision external resistive reference and a quartz-oscillator-based time reference instead of a reference capacitor. To minimize the error contribution of the CDC circuitry, various precision circuit techniques, such as chopping and auto-zeroing, are applied at both system and circuit level. Measurement results of the prototype realized in 0.35-μm CMOS technology show that the CDC achieves an rms resolution of 42 aF across a capacitance range from 6 to 22 pF, corresponding to an effective number of bits (ENOB) of 16.7 bit. The conversion time for one measurement is 10.5 ms, during which the CDC consumes 230 μA from a 3.3-V single supply. The measured thermal stability is within ±7.5 ppm/°C across a temperature range from 20 °C to 70 °C, which represents a significant improvement compared to the state of the art. After a two-point calibration, all ten measured samples from one batch show absolute accuracy below ±25 fF across the entire capacitance measurement range.

  62. Hybrid plasmonics slot THz waveguide for subwavelength field confinement and crosstalk between two waveguides
    J Xiao; QQ Wei; DG Yang; P Zhang; N He; GuoQi Zhang; XP Chen;
    IEEE Journal of Selected Topics in Quantum Electronics,
    Volume 23, Issue 4, 2017.

  63. Color shift modeling of light-emitting diode lamps in step-loaded stress testing
    M Cai; D Yang; J Huang; M Zhang; X Chen; C Liang; S Koh; GuoQi Zhang;
    IEEE Photonics Journal,
    Volume 9, Issue 1, pp. 1-14, 2017.

  64. An AlAs/germanene heterostructure with outstanding tunability of electronic properties
    C Tan; Q Yang; H Ye; X Chen; GuoQi Zhang;
    In Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and Microsystems (EuroSimE), 2017 18th International Conference on,
    2017.

  65. Electrical and optical properties of NO and H2S adsorption on Arsenic Phosphorus
    Y Zhang; K Zheng; X Chen; GuoQi Zhang; C Tan; Q Yang; J Jiang; H Ye;
    In Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and Microsystems (EuroSimE), 2017 18th International Conference on,
    2017.

  66. Adsorption of gases on monolayer GeSe: A first principle study
    L Liu; Q Yang; H Ye; X Chen; GuoQi Zhang;
    In Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and Microsystems (EuroSimE), 2017 18th International Conference on,
    2017.

  67. First principle design of CdS/germanene heterostructures with tunable electronic and transport properties
    K Zheng; H Ye; GuoQi Zhang; Y Zhang; L Liu; J Jiang; Q Yang; C Tan; X Chen;
    In Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and Microsystems (EuroSimE), 2017 18th International Conference on,
    2017.

  68. The intriguing electronic and optical properties modulation in blue phosphorene/g-III-nitrides heterostructures
    Q Yang; C Tan; H Ye; X Chen; GuoQi Zhang;
    In Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and Microsystems (EuroSimE), 2017 18th International Conference on,
    2017.

  69. A CMOS-Compatible Hybrid Plasmonic Slot Waveguide With Enhanced Field Confinement
    Jing Xiao; Qi-Qin Wei; Dao-Guo Yang; Ping Zhang; Ning He; GuoQi Zhang;
    IEEE Electron Device Letters,
    Volume 37, Issue 4, 2016.

  70. Degradation Mechanism Decoupling of Mid-Power White-Light LEDs by SPD Simulation
    Jianlin Huang; D. S. Golubović; S. Koh; D. Yang; X. Li; X. Fan; GuoQi Zhang;
    IEEE Transactions on Electron Devices,
    Volume 63, pp. 2807-2814, 2016.

  71. Ab Initio Study of Temperature, Humidity, and Covalent Functionalization-Induced Bandgap Change of Single-Walled Carbon Nanotubes
    Xian-Ping Chen; Ning Yang; Jun-Ke Jiang; Qiu-Hua Liang; Dao-Guo Yang; GuoQi Zhang;
    IEEE Electron Device Letters,
    Volume 36, Issue 6, 2015.

  72. Degradation modeling of mid-power white-light LEDs by using Wiener process
    Jianlin Huang; D. S. Golubović; S. Koh; D. Yang; X. Li; X. Fan; GuoQi Zhang;
    Optics Express,
    Volume 23, pp. A966-A978, 2015.

  73. Degradation Mechanisms of Mid-power White-light LEDs under High Temperature-Humidity Conditions
    Jianlin Huang; D.S. Golubović; S. Koh; D. Yang; X. Li; X. Fan; GuoQi Zhang;
    IEEE Transactions on Device and Materials Reliability,
    Volume 15, Issue 2, pp. 220-228, 2015.

  74. First-principles study of the effect of functional groups on polyaniline backbone
    X P Chen; J K Jiang; Q H Liang; N Yang; Huaiyu Ye; M Cai; L Shen; D G Yang; T L Ren;
    Scientific Reports,
    Volume 5, pp. 16907, 2015.

  75. Doped Carbon Nanotubes for Interconnects
    J. Robertson; S. Esconjauregui; L. D’Arsie; J. Yang; H. Sugime; G. Zhong; Y. Guo; S. Vollebregt; R. Ishihara; C. Cepek; G. Duesberg; T. Hallam;
    In Extended Abstracts of the 2015 International Conference on Solid State Devices and Materials (SSDM),
    2015.

  76. Error analysis of a charge-balancing capacitive sensor interface with resistive reference
    R. Yang; S. Nihtianov;
    In O Kaynak (Ed.), Proc. of the 23rd IEEE International Symposium on Industrial Electronics,
    IEEE, pp. 274-280, 2014. Harvest.

  77. Noise analysis and characterization of a charge-balancing-based capacitive sensor interface with a resistive reference
    R. Yang; S. Nihtianov;
    In JC Miguez; D Slomovitz (Ed.), Proc. of the IEEE International Instrumentation and Measurement Technology Conference,
    IEEE, pp. 1182-1186, 2014. Harvest.

  78. Capacitive sensor interface with precision references
    R. Yang; M. A. P. Pertijs; S. Nihtianov; P. Haak;
    In Proc. IEEE International Conference on Industrial Technology (ICIT),
    IEEE, pp. 358‒390, March 2014. DOI: 10.1109/icit.2014.6894896

  79. A time/resistor-referenced capacitive sensor interface for displacement measurement in the sub-nanometer range
    R. Yang; S. Nihtianov;
    In RC Luo (Ed.), Proc. of the 22nd IEEE International Symposium on Industrial Electronics,
    IEEE, pp. 1-5, 2013. Harvest.

  80. Autonomous self-aligning and self-calibrating capacitive sensor system
    O.S. van de Ven; D. Yang; S. Xia; J.P. van Schieveen; J.W. Spronck; R.H. Munnig Schmidt; S. Nihtianov;
    In M Kamel; F Karray; H Hagras (Ed.), Proc. of the 3rd International Conference on Autonomous and Intelligent Systems,
    Springer Verlag, pp. 10-17, 2012.

  81. A method to calibrate spring constant of cantilevers used in scanning force microscopy
    A. Bossche; J.F.L. Goosen; H. Sadeghian Marnani; C.K. Yang; A. van Keulen; P.J. French;
    Patent, 2005687, OCT-10-039 2012.

  82. From MEMS to NEMS: Scaling Cantilever Sensors
    C.K. Yang;
    PhD thesis, Delft University of Technology, 2012.

  83. Experimental characterization of roughness induced scattering losses in PECVD SiC waveguides
    G. Pandraud; E. Margallo-Balbas; C.K. Yang; P.J. French;
    Journal of Lightwave Technology,
    Volume 29, Issue 5, pp. 744-749, 2011. DOI 10.1109/JLT.2011.2108264.

  84. A novel LTCC differentially fed UWB antenna for the 60 GHz band
    YC Yang; A Yarovoy; SE Valavan; K Buisman; O Shoykhetbrod;
    International Journal of Microwave and Wireless Technologies,
    Volume 3, Issue Special issue 02, pp. 171--177, 2011.

  85. PECVD silicon carbide surface micriomachining technology and selected MEMS applications
    V. Rajaraman; L. Pakula; H. Yang; P.J. French; P.M. Sarro;
    International Journal of Advances in Engineering Sciences and Applied Mathematics,
    pp. 1-7, 2011.

  86. Experimental characterization of roughness induced scattering losses in PECVD SiC waveguides
    G. Pandraud; E. Margallo-Balbás; C.K. Yang; P.J. French;
    Journal of Lightwave Technology,
    Volume 29, Issue 5, pp. 744-749, 2011.

  87. Erythroid/Myeloid Progenitors and Hematopoietic Stem Cells Originate from Distinct Populations of Endothelial Cells
    Michael J. Chen; Yan Li; Maria Elena De Obaldia; Qi Yang; Amanda D. Yzaguirre; Tomoko Yamada-Inagawa; Chris S. Vink; Avinash Bhandoola; Elaine Dzierzak; Nancy A. Speck;
    Cell Stem Cell,
    Volume 9, Issue 6, pp. 541--552, December 2011. DOI: 10.1016/j.stem.2011.10.003
    document

  88. Performance optimization of self-alignment system for capacitive sensors
    J. van Schieveen; R. Yang; S. Nihtianov; J. Spronck;
    In S Bogosyan; K Ohnishi (Ed.), Proc. of the IEEE International Conference on Mechatronics,
    IEEE, pp. 648-653, 2011.

  89. High-performance eddy current sensor interface for small displacement measurement
    M.R. Nabavi; R. Yang; S. Nihtianov;
    In {Dyer et al.}, C (Ed.), Proc. of the International Instrumentation and Measurement Technology Conference,
    IEEE, pp. 58-62, 2011.

  90. Highly stable capacitance-to-digital converter with improved dynamic range
    R. Nojdelov; R. Yang; X. Guo; S. Nihtianov;
    In S Mukhopadhyay; A Fuchs; KP Jayasundera (Ed.), Proc. of the IEEE Fifth International Conference on Sensing Technology,
    IEEE, pp. 140-144, 2011.

  91. Qualification of a stable capacitive sensor interface, based on capacitance-resistance comparison
    R. Yang; A. Fekri; R. Nojdelov; S. Nihtianov;
    In E Lewis; T Kenny (Ed.), Proc. of the IEEE Sensors conference,
    IEEE, pp. 1181-1184, 2011.

  92. UWB Antennas and MIMO Antenna Arrays Development for Near-Field Imaging
    Yang, Y.;
    PhD thesis, Delft University of Technology, Delft, October 2011.
    document

  93. PECVD silicon carbide surface micriomachining technology and selected MEMS applications
    V. Rajaraman; L.S. Pakula; H. Yang; P.J. French; P.M. Sarro;
    International journal of advances engineering sciences and applied mathematics,
    Volume 2, Issue 1-2, pp. 28-34, 2010. DOI 10.1007/s12572-010-0020-9.

  94. Some considerations of effects-induced errors in resonant cantilevers with the laser deflection method
    H. Sadeghian; C.K. Yang; K. Babaei Gavan; J.F.L. Goosen; EW.J.M. van der Drift; H.S.J. van der Zant; A. Bossche; P.J. French; F. van Keulen;
    Journal of Micromechanics and Microengineering,
    Volume 20, Issue 10, pp. 105027-105036, 2010.

  95. Effects of size and defects on the elasticity of silicon nanocantilevers
    H. Sadeghian Marnani; C.K. Yang; J.F.L. Goosen; A. Bossche; U. Staufer; P.J. French; F. van Keulen;
    Journal of Micromechanics and Microengineering,
    Volume 20, Issue 064012, pp. 1-8, 2010.

  96. Demonstration of PECVD SiC-SiO2-SiC horizontal slot waveguides
    G. Pandraud; A.B. Neira; E. Margallo Balbas; C.K. Yang; P.M. Sarro;
    IEEE Photonics Technology Letters,
    Volume 22, Issue 6, pp. 398-400, 2010.

  97. Comparison of 10-18 Ghz SAR and MIMO-based short-range imaging radars
    TG Savelyev; X Zhuge; YC Yang; PJ Aubry; A Yarovoy; LP Ligthart; B Levitas;
    International Journal of Microwave and Wireless Technologies,
    Volume 2, Issue 3-4, pp. 369--377, 2010.

  98. Temperature sensitivity of silicon cantilevers' elasticity with the electrostatic pull-in instability
    H. Sadeghian Marnani; D. Yang; J.F.L. Goosen; A. Bossche; P.J. French; F. van Keulen;
    Sensors and Actuators A: Physical: an international journal devoted to research and development of physical and chemical transducers,
    Volume 162, pp. 220-224, 2010.

  99. Development of UWB microwave array radar for concealed weapon detection
    TG Savelyev; X Zhuge; YC Yang; A Yarovoy; LP Ligthart; M Drozdov; B Levitas;
    B Levitas (Ed.);
    Geozondas Ltd. / IEEE, , pp. 240--243, 2010.

  100. Experimental verification of ka band ltcc antenna
    YC Yang; A Yarovoy; O Shoykhetbrod; D Nuessler;
    s.n. (Ed.);
    s.n., , pp. 779--782, 2010.

  101. UWB antenna element for a full-polarimetric antenna array
    N Haider; YC Yang; DP Tran; A Yarovoy;
    s.n. (Ed.);
    IEEE society, , pp. 1--5, 2010. 12-16 April 2010, Barcelona, Spain, E-ISBN : 978-84-7653-472-4 Print ISBN: 978-1-4244-6431-9.

  102. On Pixel Detection Threshold in the Gigavision Camera
    F. Yang; L. Sbaiz; E. Charbon; S. Susstrunk; M. Vetterli;
    In IS\&T/SPIE Electronic Imaging Meeting,
    January 2010.
    document

  103. UWB antenna element for a full-polarimetric antenna array
    Haider, N.; Yang, B.; Tran, D.P.; Yarovoy, A.G.;
    In Antennas and Propagation (EuCAP), 2010 Proceedings of the Fourth European Conference on,
    pp. 1-5, April 2010.
    document

  104. Optimized low-power thermal stepper system for harsh and inaccessible environments
    R. Yang; J.P. van Schieveen; S. Nihtianov; J.W. Spronck;
    In s.n. (Ed.), Proceedings IECON 2010,
    IEEE, pp. 1779-1784, 2010.

  105. Electronic system for control of a thermally actuated alignment device
    R. Yang; J.P. van Schieveen; S. Nihtianov; J.W. Spronck;
    In {Rodríguez et al}, J (Ed.), Proceedings ICIT 2010,
    IEEE, pp. 1581-1586, 2010.

  106. Quantitative analysis and decoupling of mass and stiffness effects in cantilever mass sensors
    H. Sadeghian Marnani; C.K. Yang; H. Goosen; A. Bossche; P.J. French; F. van Keulen;
    In {Fedder et al}, G (Ed.), Proceedings Sensors 2010,
    IEEE, pp. 631-634, 2010.

  107. Method for determining a spring constant for a deformable scanning probe microscope element, and scanning probe microscope and calibration device arranged for determing a spring constant for a probe element
    H. Sadeghian Marnani; C. Yang; F. van Keulen; J.F.L. Goosen; A. Bossche;
    2010.

  108. Characterizing size-dependent effective elastic modulus of silicon nanocantilevers using electrostatic pull-in instability
    H. Sadeghian Marnani; C.K. Yang; J.F.L. Goosen; E. Drift; A. Bossche; P.J. French; F. van Keulen;
    Applied Physics Letters,
    Volume 94, Issue 221903, pp. 1-3, 2009.

  109. Effects of surface stress on nanocantilevers
    H. Sadeghian Marnani; C.K. Yang; K. Babaei Gavan; J.F.L. Goosen; EW.J.M. van der Drift; H.S.J. van der Zant; A. Bossche; P.J. French; F. van Keulen;
    E-Journal of Surface Science and Nanotechnology,
    Volume 7, pp. 161-166, 2009.

  110. Surface contamination induced resonance frequency shift of cantilevers
    H. Sadeghian; C.K. Yang; K. Babaei Gavan; J.F.L. Goosen; EW.J.M. van der Drift; H.S.J. van der Zant; P.J. French; A. Bossche; F. van Keulen;
    s.n. (Ed.);
    IEEE Computer Society, , pp. 396-399, 2009.

  111. 2d antenna array for near-field imaging applications
    B Yang; A Yarovoy; LP Ligthart;
    s.n. (Ed.);
    s.n., , pp. 1--3, 2009.

  112. Experimental verification of 2d uwb nimo antenna array for near-field imaging radar
    B Yang; A Yarovoy; PJ Aubry; X Zhuge;
    s.n. (Ed.);
    IEEE society, , pp. 97--100, 2009.

  113. UWB stacked patch antenna design for near-field imaging radar antenna array
    YC Yang; A Yarovoy; LP Ligthart;
    s.n. (Ed.);
    VDE Verlag GMBH, , pp. 817--821, 2009.

  114. The gigavision camera
    Luciano Sbaiz; Feng Yang; Edoardo Charbon; Sabine Susstrunk; Martin Vetterli;
    In Proc. IEEE ICASSP,
    Taipei (Taiwan), IEEE, April 2009.
    document

  115. Image Reconstruction in the Gigavision Camera
    Feng Yang; L. Sbaiz; E. Charbon; S. Susstrunk; Martin Vetterli;
    In IEEE 12th International Conference on Computer Vision, Ninth Workshop on Omnidirectional Vision, Camera Networks and Non-classical Cameras (OMNIVIS 2009),
    Kyoto (Japan), IEEE, pp. 2212-2219, September 2009.
    document

  116. Experimental characterisation of roughness induced scattering loss in Si and SiC waveguide sensors
    E. Margallo; C.K. Yang; G. Pandraud; P.J. French;
    In Proceedings of IEEE SENSORS 2009,
    Christchurch, NZ, pp. 1557-1561, 2009.

  117. Single wafer surface micromachined field emission electron source
    F. Santagata; C.K. Yang; J.F. Creemer; P.J. French; P.M. Sarro;
    In PM Sarro & C Hierold (Eds.), Proceedings of IEEE MEMS 2009 Conference,
    Sorrento, Italy, IEEE, pp. 848-851, 2009.

  118. Bio-inspired dome-shape SiO2/SiN membrane as strain-amplifying transducer
    D.H.B. Wicaksono; G. Pandraud; C.K. Yang; J. Dankelman; P.J. French;
    In J. Brugger; D. Briand (Ed.), Eurosensors XXIII,
    Lausanne, Switzerland, Elsevier, pp. 770-773), 2009.
    document

  119. Bio-inspired dome-shape SiO2/SiN membrane as strain-amplifying transducer
    D.H.B. Wicaksono; G. Pandraud; C.K. Yang; J. Dankelman; P.J. French;
    In J Brugger; D Briand (Ed.), Procedia Chemistry, Volume 1, Issue 1,
    Elsevier, pp. 770-773, 2009.

  120. Effect of Laser Deflection on Resonant Cantilever Sensors
    C.K. Yang; A. Bossche; P.J. French; H. Sadeghian Marnani; J.F.L. Goosen; F. van Keulen; K. Babaei Gavan; H.S.J. van der Zant; EW.J.M. van der Drift;
    In {Makhopadhyay, S.C.} (Ed.), Proceedings of the IEEE Sensors 2009 Conference, 25-28 October 2009, Christchurch, New Zealand,
    IEEE, pp. 869-872, 2009.

  121. Single wafer surface micromachined field emission electron source
    F. Santagata; C.K. Yang; J.F. Creemer; P.J. French; P.M. Sarro;
    In P.M. Sarro; C Hierold (Ed.), Single wafer surface micromachined field emission electron source,
    IEEE, pp. 848-851, 2009.

  122. Experimental characterisation of roughness induced scattering loss in Si and SiC waveguide sensors
    E. Margallo; C.K. Yang; G. Pandraud; P.J. French;
    In SC Mukhopadhyay (Ed.), Proceedings of IEEE SENSORS 2009,
    IEEE, pp. 1557-1561, 2009.

  123. Experimental characterisation of roughness induced scattering loss in Si and SiC waveguide sensors
    E. Margallo; C.K. Yang; G. Pandraud; P.J. French;
    In s.n. (Ed.), Proceedings of IEEE Sensors 2009,
    IEEE, pp. 1557-1561, 2009.

  124. On the size-dependent elastic behavior of silicon nanocantilevers
    H. Sadeghian Marnani; C.K. Yang; J.F.L. Goosen; A. Bossche; U. Staufer; P.J. French; F. van Keulen;
    In s.n. (Ed.), Proceedings of the MicroMechanics Europe 2009 Conference, September 20-22, 2009, Toulouse, France,
    MME, pp. 1-4, 2009.

  125. Surfaces Induce Errors in Resonance-Shift Sensing
    C.K. Yang; H. Sadeghian Marnani; K. Babaei Gavan; J.F.L. Goosen; E. Drift; H.S.J. van der Zant; A. Bossche; F. van Keulen; P.J. French;
    In s.n. (Ed.), Proceedings of the Sense of Contact 11, 8 April 2009, Zeist, The Netherlands,
    Sense of Contact 2009, pp. 1-6, 2009.

  126. Size effects on the bending stiffness of silicon nanocantilevers
    H. Sadeghian Marnani; C.K. Yang; J.F.L. Goosen; A. Bossche; P.J. French; F. van Keulen;
    In s.n. (Ed.), Proceedings of ProRISC 2009, 20th Annual Workshop on circuits, Systems and Signal Processing, SAFE 2009, 12th Annual Workshop on Semiconductor Advances for Future Electronics and Sensors, November 26-27, 2009, Veldhoven, The Netherlands,
    ProRISC en SAFE, pp. 108-111, 2009.

  127. Bio-inspired dome-shape SiO2/SiN membrane as strain-amplifying transducer
    D.H.B. Wicaksono; G. Pandraud; C.K. Yang; J. Dankelman; P.J. French;
    In s.n. (Ed.), Proceedings of Eurosensors, XXIII 2009,
    s.n., pp. 770-773, 2009.

  128. Temperature Sensitivity of Silicon Cantilevers with the Pull-in Instability Method
    H. Sadeghian Marnani; C.K. Yang; J.F.L. Goosen; A. Bossche; P.J. French; F. van Keulen;
    In {Brugger, J.}; {Briand, D.} (Ed.), Proceedings of the Eurosensors XXIII Conference, 6-9 September 2009, Lausanne, Switzerland,
    Elsevier, pp. 1387-1390, 2009.

  129. Temperature Sensitivity of Silicon Cantilevers with the Pull-in Instability Method
    H. Sadeghian Marnani; C.K. Yang; J.F.L. Goosen; A. Bossche; P.J. French; F. van Keulen;
    In {Brugger, J.}; {Briand, D.} (Ed.), Proceedings of the Eurosensors XXIII Conference, 6-9 September 2009, Lausanne, Switzerland,
    Elsevier, pp. 1387-1390, 2009.

  130. Stacked patch UWB antenna in LTCC technology
    Shenario Ezhil, Valavan; Yang, Bill; Yarovoy, Alexander; Ligthart, Leo;
    In 2009 3rd European Conference on Antennas and Propagation,
    pp. 1467--1468, 2009.

  131. System and method for micro- and nanoelectromechanical sample mass measurement
    H. Sadeghian Marnani; C.K. Yang; F. van Keulen; J.F.L. Goosen; A. Bossche; P.J. French;
    2009. Op naam van TU Delft; 2003643; Op naam van TU Delft.

  132. Method for measuring a temperature, electromechanical device for measuring a temperature
    H. Sadeghian Marnani; F. van Keulen; C.K. Yang; J.F.L. Goosen; A. Bossche;
    2009. Op naam van TU Delft; 2003431; Op naam van TU Delft.

  133. Electronic control of a thermal actuator for a fully autonomous self-alignment and self-caliration functionality
    C.K. Yang;
    PhD thesis, Delft University of Technology, 2009.

  134. Tribler: a social-based peer-to-peer system
    J.A. Pouwelse; P.J. Garbacki; J. Wang; A. Bakker; J. Yang; A. Iosup; D.H.J. Epema; M.J.T. Reinders; {van Steen}, MR; HJ Sips;
    Concurrency and Computation: Practice & Experience,
    Volume 20, Issue 2, pp. 127-138, 2008.

  135. Field emission for cantilever sensors
    C.K. Yang; A.J. le Fèbre; G. Pandraud; EW.J.M. van der Drift; P.J. French;
    Journal of Vacuum Science and Technology. Part B: Microelectronics and Nanometer Structures,
    Volume 26, Issue 3, pp. 927-933, 2008.

  136. Nano-structure or nano-system:opportunities and pitfalls
    P.J. French; C.K. Yang;
    Sensors & Transducers,
    pp. 1-9, 2008.

  137. A novel shielded UWB antenna in ltcc for radar and communications applications
    YC Yang; O Vorobyov; A Yarovoy; LP Ligthart; S Rentsch; J Muller;
    s.n. (Ed.);
    IEEE society, , pp. 117--120, 2008.

  138. An M-Band differentially fed, aperture coupled stacked patch antenna in LTCC
    SE Valavan; YC Yang; A Yarovoy; LP Ligthart;
    s.n. (Ed.);
    Horizon House, , pp. 200--203, 2008.

  139. UWB MIMO antenna array topology design using PSO for through dress near-field imaging
    YC Yang; X Zhuge; A Yarovoy; LP Ligthart;
    s.n. (Ed.);
    Horizon House, , pp. 463--466, 2008. Euma proceedings - Ook in Proceedings of the 38th European Microwave conference.

  140. Thin-film encapsulation of a silicon field emission electron source
    F. Santagata; C.K. Yang; J.F. Creemer; P.M. Sarro;
    In s.n. (Ed.), Proceedings Eurosensors XXII,
    Dresden, Germany: Eurosensors XXII, pp. 625-628, 2008.
    document

  141. Further investigation of hydrogen silsesquioxane e-beam resist as etching mask for cryogenic silicon etching
    C.K. Yang; G. Pandraud; K. Babaei Gavan; EW.J.M. van der Drift; P.J. French;
    In s.n. (Ed.), Proceedings of SAFE 2008,
    STW, pp. 527-530, 2008.

  142. Automated resonance frequency determination for nano-cantilevers using motion detection
    E. Margallo-Balbás; C.K. Yang; P.J. French;
    In s.n. (Ed.), Proceedings of sense of contact X,
    Sense of Contact 2009, pp. 1-6, 2008.

  143. On chip measurement for side-wall roughness in SOI waveguides by atomic force microscopy
    C.K. Yang; E. Margallo Balbas; G. Pandraud; P.J. French;
    In s.n. (Ed.), Proceedings of First Mediterranean Photonics Conference,
    mediterranean photonics, pp. 48-50, 2008. NEO.

  144. 3-D silicon carbide surface micromachined accelerometer compatible with CMOS processing
    L. Pakula; H. Yang; P.J. French;
    In s.n. (Ed.), Proceedings of ASDAM 2008,
    Slovak academy of sciences, pp. 227-230, 2008.

  145. 3D SiC CMOS compatible surface micromachined accelerometer
    L. Pakula; H. Yang; P.J. French;
    In s.n. (Ed.), Proceedings of APCOT 2008,
    IEEE, pp. 1-4, 2008.

  146. Thin-film encapsulation of a silicon field emission electron source
    F. Santagata; C.K. Yang; J.F. Creemer; P.M. Sarro;
    In s.n. (Ed.), Proceedings Eurosensors XXII,
    Eurosensors XXII, pp. 625-628, 2008.

  147. Investigation of hydrogen silsesquioxane E-beam resist as etching mask for cryogenic silicon etching
    C.K. Yang; G. Pandraud; K. Babaei Gavan; EW.J.M. van der Drift; P.J. French;
    In s.n. (Ed.), Proceedings of APCTP-ASEAN workshop on Advanced Material Science and Nanotechnology,
    APCTP-ASEAN, pp. 1088-1092, 2008.

  148. Field emission for nanometre displacement sensing
    C.K. Yang; A.J. le Febre; G. Pandraud; EW.J.M. van der Drift; P.J. French;
    In s.n. (Ed.), apcot, pp. 200-203, 2008.

  149. Performance analysis of uwb antenna array for short-range imaging
    YC Yang; A Yarovoy; LP Ligthart;
    s.n. (Ed.);
    IET, , pp. 1--6, 2007.

  150. Reconstruction of the field radiated by gpr antenna into ground
    A Yarovoy; W Qiu; YC Yang; PJ Aubry;
    s.n. (Ed.);
    IET, , pp. 1--6, 2007.

  151. SOG fabrication of bulk micromachined and bonded capacitive inertial sensor structures (U_SP_2_I_IC_T)
    V. Rajaraman; G. Craciun; H. Yang; EW.J.M. van der Drift; P.J. French;
    In s.n. (Ed.), SOG fabrication of bulk micromachined and bonded capacitive inertial sensor structures,
    SAFE, pp. 617-620, 2007.

  152. Field emission as transducer for sub-micron and nano resonators
    C.K. Yang; P.J. French; EW.J.M. van der Drift; J.R. Kim; P. Hadley;
    In S. Lee; M Esashi (Ed.), Proceedings of the 5th IEEE Conference on Sensors 2006,
    IEEE, pp. 1207-1210, 2007.

  153. Fabrication of a SOG-MEMS vibratory gyroscope by deep RIE technology and bonding (U_SP_2_I_IC_T)
    V. Rajaraman; G. Craciun; H. Yang; L. Pakula; EW.J.M. van der Drift; K.A.A. Makinwa; P.J. French;
    In {A. Liu, J.Wu, C. Lu}; {C.D. Reddy} (Ed.), MEMS Technology and Devices,
    pan Stanford, pp. 238-241, 2007.

  154. Field emission for sensor applications
    C.K. Yang; EW.J.M. van der Drift; P.J. French;
    In G.C.M. Meyer (Ed.), Field emission for sensor applications,
    Sense of Contact 2009, pp. 1-6, 2007.

  155. Field Emission for Cantilever Sensing
    C.K. Yang; A.J. le Fèbre; G. Pandraud; EW.J.M. van der Drift; P.J. French;
    In P.J. French (Ed.), Safe 2007,
    Technology Foundation, pp. 1-4, 2007.

  156. Low Voltage, High Speed RF-Switch with High On-Off Capacitance Ratio (U-SP-2-I-ICT)
    L. Pakula; P.J. French; H. Yang;
    In s.n. (Ed.), Proceedings of APCOT 2006,
    apcot, pp. 1-5, 2006.

  157. Feasibility study on Field Emission Nano-Tip for Sensors (U-SP-2-I-ICT)
    C.K. Yang; P.J. French; EW.J.M. van der Drift;
    In STW (Ed.), Proceedings of the 9th annual workshop on Semiconductor Advances for Future Electronics and Sensors 2006,
    s.l., pp. 404-407, 2006.

  158. Low voltage, high speed RF switch with high switching capacitance ratio (U-SP-2-I-ICT)
    L. Pakula; P.J. French; H. Yang;
    s.n. (Ed.);
    s.l., , pp. 1-4, 2005. NEO.

  159. Suspended submicron SiC waveguides for gas and chemical sensor
    G. Pandrau; C.K. Yang; P.J. French; P.M. Sarro;
    In Proc. Eurosensors XIX,
    2005.
    document

  160. Field-emission nano-tip for microresonator detection
    C.K. Yang; G. Pandraud; EW.J.M. van der Drift; P.J. French;
    In s.n. (Ed.), Proceedings of the STW programs,
    STW, pp. 181-185, 2005. Editor onbekend JH/STW.

  161. On detection of micro and submicron cantilevers
    C.K. Yang; K. Babaei Gavan; G. Pandraud; A.J. Katan; EW.J.M. van der Drift; P.J. French;
    In s.n. (Ed.), Proceedings of the 16th MME MicroMechanics Europe Workshop,
    s.n., pp. 316-319, 2005. Editor onbekend JH.

  162. Low voltage high speed rf switch
    L. Pakula; H. Yang; P.J. French;
    In {R Reus}, de; {S Bouwstra} (Ed.), Eurosensors XIX, proceedings,
    IEEE, pp. 1-4, 2005. Editor onbekend.

  163. Suspended submicron PEVCD SiC waveguides for gas and chemical sensors
    G. Pandraud; C.K. Yang; P.J. French; P.M. Sarro;
    In s.n. (Ed.), Eurosensors XIX,
    IEEE, pp. 1-4, 2005. 100% EI, sb.

  164. Fabrication of a CMOS compatible pressure sensor for harsh environments
    L. Pakula; H. Yang; T.M.H. Pham; P.J. French; P.M. Sarro;
    Journal of Micromechanics and Microengineering,
    Volume 14, pp. 1478-1483, 2004. ed.is niet bekend.

  165. Surface micromachined CMOS compatible vertical accelerometer
    L. Pakula; H. Yang; P.J. French;
    In The sense of contact 6: where industry meets science workshop sensortechnology,
    s.n., pp. 1-4, 2004. ed. is niet bekend.

  166. CMOS compatible pressure sensors: a comparison between SiC and SiN
    L. Pakula; H. Yang; P.J. French; P.M. Sarro;
    In SAFE bdf98e4d646247d79cef99391c2b9226 ProRISC 2004; Proceedings of semiconductor advances for future electronics,
    STW Technology Foundation, pp. 769-773, 2004. ed. is niet bekend.

  167. A novel ull-in accelerometer
    L. Pakula; H. Yang; P.J. French;
    In ICEE 2004; Coference proceedings of the international conference on electrical engineering 2004 joint conference with AsiPcific conference of tranducers and micro-nano technology 2004,
    ICEE, pp. 163-167, 2004. ed. is niet bekend.

  168. Single step IC-compatible processing of inertial sensors using SF6-O2 cryogenic plasma process
    G. Craciun; H. Yang; L. Pakula; EW.J.M. van der Drift; P.J. French;
    In Takashi KAWAMURA; Eun-Woong LEE; Yanchang Lu; Kwan James (Ed.), ICEE2004; Conference proceedings of the International conference of elecrical engineering 2004,
    The Institute of the Electrical Engineers of Japan, pp. 174-178, 2004. ed. is niet bekend.

  169. Modified Reynold's equation and analytical analysis of squeeze-film air damping of perforated structures
    M. Bao; H. Yang; Y. Sun; P.J. French;
    Journal of Micromechanics and Microengineering,
    Volume 13, pp. 795-800, 2003.

  170. Electromechamical optical attenuation in micromachined SiC waveguides
    G. Pandraud; H. Yang; L.S. Pakula; H.T.M. Pham; P.J. French; P.M. Sarro;
    In Proc. SAFE 2003,
    Veldhoven, The Netherlands, pp. 631-634, Nov. 2003. ISBN 90-73461-39-1.

  171. Fabrication of a CMOS Compatible Pressure Sensor for Harsh Environments
    L.S. Pakula; H. Yang; H.T.M. Pham; P.J. French; P. M. Sarro;
    In Proc. 16th IEEE International MEMS conference,
    Kyoto, Japan, pp. 502-505, Jan. 2003.
    document

  172. Surface micromachined CMOS compatible vertical accelerometer
    L. Pakula; H. Yang; P.J. French;
    In s.n. (Ed.), SAFE 2003 Semiconductor advances for future electronics,
    Stichting voor de Technische Wetenschappen, pp. 707-710, 2003. CD-ROM.

  173. Processing of inertial sensors using SF6-O2 Cryogenic plasma process
    G. Craciun; H. Yang; L. Pakula; M.A. Blauw;
    In s.n. (Ed.), SAFE 2003 Semiconductor advances for future electronics,
    Stichting voor de Technische Wetenschappen, pp. 683-686, 2003. CD-ROM.

  174. Electromechanical optical attenuation in micromachined SiC waveguids
    G. Pandraud; H. Yang; L. Pakula; T.M.H. Pham; P.J. French; P.M. Sarro;
    In s.n. (Ed.), SAFE 2003 Semiconductor advances for future electronics,
    Stichting voor de Technische Wetenschappen, pp. 631-634, 2003. CD-ROM.

  175. A novel RF switch with low driving voltage
    L. Pakula; H. Yang; P.J. French;
    In s.n. (Ed.), SAFE 2003 Semiconductor advances for future electronics,
    Stichting voor de Technische Wetenschappen, pp. 753-756, 2003. CD-ROM.

  176. Design of a novel electrostatic switch with low operating voltage and high speed
    H. Yang; L. Pakula; P.J. French;
    In s.n. (Ed.), MME 2003 14th Micromechanics Europe workshop,
    s.n., pp. 33-36, 2003.

  177. A CMOS compatible SiC accelerometer
    L. Pakula; H. Yang; P.J. French;
    In s.n. (Ed.), IEEE Sensors 2003,
    IEEE, pp. 761-764, 2003. CD-rom.

  178. IC-compatible processing of inertial sensors using SF6-O2 cryogenic plasma process
    G. Craciun; H. Yang; L. Pakula; M.A. Blauw; EW.J.M. van der Drift; P.J. French;
    In s.n. (Ed.), IEEE Sensors 2003,
    IEEE, pp. 440-444, 2003. CD-rom.

  179. Fabrication of a CMOS compatibile pressure sensor for harsh environments
    L. Pakula; H. Yang; T.M.H. Pham; P.J. French; P.M. Sarro;
    In s.n. (Ed.), MEMS 2003 IEEE 16th annual international conference on micro electro mechanical systems,
    IEEE, pp. 502-505, 2003.

  180. A novel pull-in accelerometer
    H. Yang; L. Pakula; P.J. French;
    In s.n. (Ed.), EUROSENSORS 17th European conference on solid-state transducers,
    University of Minho, pp. 204-207, 2003.

  181. Fabrication of a CMOS compatible vertical accelerometer
    L. Pakula; H. Yang; T.M.H. Pham; P.M. Sarro; P.J. French;
    In s.n. (Ed.), EUROSENSORS 17th European conference on solid-state transducers,
    University of Minho, pp. 635-638, 2003.

  182. Remote sensing and petroleum leakage: a review and case study
    F.D. van der Meer; P. Dijk; H. van der Werff; H. Yang;
    Terra Nova: the European journal of geosciences,
    Volume 24, Issue 1, pp. 1-17, 2002.

  183. Imaging spectrometry and petroleum geology
    F.D. van der Meer; H. Yang; S.B. Kroonenberg; H. Lang; P. Dijk; K.H. Scholte; H. van der Werff;
    F.D. van der Meer; {de Jong}, S (Ed.);
    Kluwer Academic Publishers, , pp. 219-232, 2002. Nog niet eerder opgevoerd.

  184. Pressure Sensor for Automotive Applications
    L.S. Pakula; H. Yang; H.T.M. Pham; P.J. French; P.M. Sarro;
    In Proc. SeSens 2002,
    Veldhoven, The Netherlands, STW, pp. 649-652, Nov. 2002. ISBN 90-73461-33-2.

  185. Single Step Cryogenic SF6/O2 Plasma Etching Process for the Development of Inertial Devices
    G. Craciun; H. Yang; H.W. van Zeijl; L. Pakula; M.A. Blauw; E. van der Drift; P.J. French;
    In Proc. SeSens 2002,
    Veldhoven, The Netherlands, STW, pp. 612-615, Nov. 2002. ISBN 90-73461-33-2.

  186. A surface micromachined accelerometer working in the pull-in operation mode
    H. Yang; L. Pakula; P.J. French;
    In Proceedings SeSens 2002,
    STW Stichting voor de Technische Wetenschappen, pp. 700-703, 2002.

  187. A novel operation mode for accelerometers
    H. Yang; L. Pakula; P.J. French;
    In Xiamen University Press, pp. 303-306, 2002.

  188. Single step cryogenic SF6/O2 plasma etching process for the development of inertial devices
    G. Craciun; H. Yang; H.W. van Zeijl; L. Pakula; M.A. Blauw; EW.J.M. van der Drift; P.J. French;
    In Proceedings of SeSens 2002,
    STW Stichting voor de Technische Wetenschappen, pp. 612-614, 2002.

  189. Pressure sensor for automotive applications
    L. Pakula; H. Yang; T.M.H. Pham; P.J. French; P.M. Sarro;
    In Proceedings of SenSens 2002,
    STW Stichting voor de Technische Wetenschappen, pp. 649-652, 2002.

  190. Single step cryogenic SF6/O2 plasma etching process for the development of a novel quad gyroscope
    G. Craciun; H. Yang; M.A. Blauw; EW.J.M. van der Drift; P.J. French;
    In MME'02 micromechanics Europe,
    Nat. Inst. for Res. and Development in Microtechnologies, pp. 55-58, 2002.

  191. Pressure sensor for harsh environments
    L. Pakula; H. Yang; T.M.H. Pham; P.J. French; P.M. Sarro;
    In MME'02 micromechanics Europe,
    Nat. Inst. for Res. and Development in Microtechnoplogies, pp. 295-298, 2002.

  192. Modified Reynolds' equation for squeeze-film air damping of hole-plates
    M. Bao; H. Yang; Y. Sun;
    In Eurosensors 2002,
    Czech Technical University, pp. 43-44, 2002.

  193. Damping caused by the gas flow in the holes of perforated structures
    H. Yang; M. Bao; L. Pakula; P.J. French;
    In {PD Franzon} (Ed.), Proceedings of SPIE Vol. 4593,
    SPIE Press, pp. 307-313, 2001.

  194. Effects of gas flow in holes on the squeeze film damping of perforated structures
    H. Yang; L. Pakula; M. Bao; P.J. French;
    In SAFE - ProRISC - SeSens 2001: proceedings. Semiconductor Advances for Future Electronics - Program for Research on Integrated Systems and Circuits - Semiconductor Sensor and Actuator Technology,
    STW Technology Foundation, pp. 888-891, 2001.

  195. Imaging spectrometry and petroleum geology
    F.D. van der Meer; H. Yang; S.B. Kroonenberg; H. Lang; P. Dijk; K.H. Scholte; H. van der Werff;
    {van der Meer}, F; {de Jong}, S (Ed.);
    Kluwer Academic Publishers, , pp. 219-238, 2000.

  196. Final Technical Report of project BE-1167 MULTISTRESS (period 1-1-96 to 31-12-98) Improving multilayered metallic materials by controlling stress, strain and interface quality and new equipment for determing these characteristics.
    O. Thomas; B. Chenevier; E.J. Mittemeijer; J.E. Sundgren; D. de Boer; A. Charaï; L. Roux; P. Gergaud; A Böttger; H. Yang; F Torregrossa; A Leenaers; P Sandstrom;
    TU Delft, , 1999.

  197. Study of double barrier superlattice by synchrotron radiation and double-crystal x-ray diffraction
    Y. ZY. Huang.T. Wang; D.S. Jiang; Y.P. Yang; X.M. Jiang; J.Y. Wu; L.S. Xiu; W.L. Zheng;
    Appl. Phys. Lett.,
    Volume 68, Issue 8, pp. 1147, 1996.

  198. X ray diffraction analysis of self-organized InAs quantum dots
    Y. ZY. Huang.T. Wang; W.Q. Ma; W. Wang; X.P. Yang; Z.G. Chen; D.S. Jiang; H.Z. Zheng;
    In Proc.SPIE,
    pp. 75, 1996.

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Last updated: 15 Jun 2019

Chung-Kai Yang

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