Sten Vollebregt
Publications
- A Fully Integrated Sequential Synchronized Switch Harvesting on Capacitors Rectifier Based on Split-Electrode for Piezoelectric Energy Harvesting
Xinling Yue; Jiarui Mo; Zhiyuan Chen; Sten Vollebregt; Guoqi Zhang; Sijun Du;
IEEE Transactions on Power Electronics,
Volume 39, Issue 6, pp. 7643-7653, 2024. DOI: 10.1109/TPEL.2024.3369728 - Measuring residual stresses in individual on-chip interconnects using synchrotron
nanodiffraction
Yaqian Zhang; Leiming Du; Olof Bäcke; Sebastian Kalbfleisch; Guoqi Zhang; Sten Vollebregt; Magnus Hörnqvist Colliander;
Applied Physics Letters,
Volume 124, pp. 083501-1-6, 2024. DOI: 10.1063/5.0192672 - Surface modification of multilayer graphene neural electrodes by local printing of platinum nanoparticles using spark ablation
Nasim Bakhshaee Babaroud; Samantha J. Rice; Maria Camarena Perez; Wouter A. Serdijn; Sten Vollebregt; Vasiliki Giagka;
Nanoscale,
Volume 16, pp. 3549-3559, 2024. DOI: 10.1039/D3NR05523J - Highly-sensitive wafer-scale transfer-free graphene MEMS condenser microphones
Roberto Pezone; Sebastian Anzinger; Gabriele Baglioni; Hutomo Suryo Wasisto; Lina Sarro; Peter Steeneken; Sten Vollebregt;
Microsystems & Nanoengineering,
Volume 10, Issue 27, pp. 1-9, 2024. DOI: 10.1038/s41378-024-00656-x - Effect of air-loading on the performance limits of graphene microphones
R. Pezone; G. Baglioni; C. Van Ruiten; S. Anzinger; H. S. Wasisto; P. M. Sarro; P. G. Steeneken; S. Vollebregt;
Applied Physics Letters,
Volume 124, Issue 12, 2024. DOI: 10.1063/5.0191939 - A high aspect ratio surface micromachined accelerometer based on a SiC-CNT composite material
Jiarui Mo; Shreyas Shankar; Roberto Pezone; Guoqi Zhang; Sten Vollebregt;
Microsystems & Nanoengineering,
Volume 10, Issue 42, 2024. DOI: 10.1038/s41378-024-00672-x - An Analog to Digital Converter in a SiC CMOS Technology for High-temperature Applications
Jiarui Mo; Yunfan Niu; Alexander May; Mathias Rommel; Chiara Rossi; Joost Romijn; Guoqi Zhang; Sten Vollebregt;
Applied Physics Letters,
Volume 124, Issue 15, 2024. DOI: 10.1063/5.0195013 - Origin of the mm-submm loss in deposited dielectrics
B.T. Buijtendorp; A. Endo; W. Jellema; K. Karatsu; K. Kouwenhoven; D. Lamers; A. J. van der Linden; K. Rostem; M. Veen; E. J. Wollack; J. J. A. Baselmans; S. Vollebregt;
arXiv:2405.13688,
2024.
document - Quantifying stress distribution in ultra-large graphene drums through modeshape imaging
Ali Sarafraz; Hanqing Liu; Katarina Cvetanović; Marko Spasenović; Sten Vollebregt; Tomás Manzaneque Garcia; Peter G. Steeneken; Farbod Alijani; Gerard J. Verbiest;
npj 2D materials and applications,
Volume 8, Issue 45, 2024. DOI: 10.1038/s41699-024-00485-6 - Temperature Sensing Elements for Harsh Environments in a 4H-SiC CMOS Technology
Jiarui Mo; Jinglin Li; Alexander May; Mathias Rommel; Sten Vollebregt; Guoqi Zhang;
IEEE Transactions on Electron Devices,
Volume 71, Issue 10, pp. 5881-5887, 2024. DOI: 10.1109/TED.2024.3450828 - Investigating Mechanical Properties of Silicon Carbide Coated Carbon Nanotube Composite at Elevated Temperatures
Jiarui Mo; Gerald J.K. Schaffar; Leiming Du; Verena Maier-Kiener; Daniel Kiener; Sten Vollebregt; Guoqi Zhang;
In IEEE 37th Intl. Conf. on Micro Electro Mechanical Systems (MEMS2024),
2024. DOI: 10.1109/MEMS58180.2024.10439455 - A SiC-carbon nanotube composite for MEMS
Sten Vollebregt;
In Sensor Decade,
2024. Invited keynote. - In Situ Analysis of Copper Microstructures in Electromigration Using SEM-EBSD Techniques
Yaqian Zhang; Yixin Yan; Sten Vollebregt; GuoQi Zhang;
In Proceedings - IEEE 74th Electronic Components and Technology Conference (ECTC),
pp. 1317-1321, 2024. DOI: 10.1109/ECTC51529.2024.00214 - Transfer-free Fabrication and Characterisation of Transparent Multilayer CVD Graphene MEAs for in-vitro Optogenetic Applications
Gonzalo León González; Shanliang Deng; Sten Vollebregt; Vasiliki Giagka;
In Proc. of IEEE Medical Measurements & Applications conference,
2024. DOI: 10.1109/MeMeA60663.2024.10596734 - Origin of mm-submm loss in deposited dielectrics for superconducting astronomical instrumentation
Bruno T. Buijtendorp; Akira Endo; Willem Jellema; Kenichi Karatsu; Ton van der Linden; Dimitry Lamers; Karwan Rostem; Edward J. Wollack; Jochem J. A. Baselmans; Sten Vollebregt; Robert Huisman; Martijn Veen;
In Proceedings Volume PC13102, Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy XII,
2024. DOI: 10.1117/12.3020071 - Improvement of on-chip terahertz spectroscopy by nanometer-scale control of electron-beam lithography
Leon Olde Scholtenhuis; Kenichi Karatsu; David J. Thoen; Louis H. Marting; Jochem J. A. Baselmans; Sten Vollebregt; Akira Endo;
In Proceedings Volume 13092, Space Telescopes and Instrumentation 2024: Optical, Infrared, and Millimeter Wave,
2024. DOI: 10.1117/12.3017946 - The Impact of Outgassing of Molding Compound on Graphene for Gas Sensing
Tiance An; Mudassir Husain; Sten Vollebregt;
In Proc. of IEEE Sensors,
2024. - Optimization of multilayer graphene-based gas sensors by ultraviolet photoactivation
Álvaro Peña; Daniel Matatagui; Filiberto Ricciardella; Leandro Sacco; Sten Vollebregt; Daniel Otero; JesúsLópez-Sánchez; Pilar Marína; M.Carmen Horrillo;
Applied Surface Science,
Volume 610, pp. 155393, 2023. DOI: 10.1016/j.apsusc.2022.155393 - Overview of Engineering Carbon Nanomaterials such as Carbon Nanotubes (CNTs), Carbon Nanofibers (CNFs), Graphene and Nanodiamonds and Other Carbon Allotropes inside Porous Anodic Alumina (PAA) Templates
Leandro Sacco; Sten Vollebregt;
MDPI Nanomaterials,
Volume 13, Issue 2, pp. 260, 2023. DOI: 10.3390/nano13020260 - Transient thermal measurement on nano-metallic sintered die-attach joints using a thermal test chip
R. Sattari; Dong Hu; Xu Liu; H. van Zeijl; S. Vollebregt; GuoQi Zhang;
Applied Thermal Engineering,
Volume 221, pp. 119503, 2023. DOI: 10.1016/j.applthermaleng.2022.119503 - Coupling Model of Electromigration and Experimental Verification – Part I: Effect of Atomic Concentration Gradient
Zhen Cui; Xuejun Fan; Yaqian Zhang; Sten Vollebregt; Jiajie Fan; Guoqi Zhang;
Journal of the Mechanics and Physics of Solids,
Volume 174, pp. 105257, 2023. DOI: 10.1016/j.jmps.2023.105257 - Coupling Model of Electromigration and Experimental Verification – Part II: Impact of Thermomigration
Zhen Cui; Xuejun Fan; Yaqian Zhang; Sten Vollebregt; Jiajie Fan; Guoqi Zhang;
Journal of the Mechanics and Physics of Solids,
Volume 174, pp. 105256, 2023. DOI: 10.1016/j.jmps.2023.105256 - Ultra-sensitive graphene membranes for microphone applications
Gabriele Baglioni; Roberto Pezone; Sten Vollebregt; Katarina Cvetanović Zobenica; Marko Spasenović; Dejan Todorovic; Hanqing Liu; Gerard Verbiest; Herre S.J. van der Zant; Peter Gerard Steeneken;
Nanoscale,
Volume 15, pp. 6343-6352, 2023. DOI: 10.1039/D2NR05147H - Microfabricated albedo insensitive sun position sensor system in silicon carbide with integrated 3D optics and CMOS electronics
Joost Romijn; Sten Vollebregt; Vincent G. de Bie; Luke M. Middelburg; Brahim El Mansouri; Henk W. van Zeijl; Alexander May; Tobias Erlbacher; Johan Leijtens; Guoqi Zhang; Pasqualina M. Sarro;
Sensors and Actuators A: Physical,
Volume 354, pp. 114268, 2023. DOI: 10.1016/j.sna.2023.114268 - The sensitivity enhancement of TiO2-based VOCs sensor decorated by gold at room temperature
Mostafa Shooshtari; Sten Vollebregt; Yas Vaseghi; Mahshid Rajati; Saeideh Pahlavan;
IOP Nanotechnology,
Volume 34, Issue 25, pp. 255501, 2023. DOI: 10.1088/1361-6528/acc6d7 - A Highly Linear Temperature Sensor Operating up to 600°C in a 4H-SiC CMOS Technology
Jiarui Mo; Jinglin Li; Yaqian Zhang; Joost Romijn; Alexander May; Tobias Erlbacher; Guoqi Zhang; Sten Vollebregt;
IEEE Electron Device Letters,
Volume 44, Issue 6, pp. 995-998, 2023. DOI: 10.1109/LED.2023.3268334 - Nanostructured Thermoelectric Films Synthesised by Spark Ablation and Their Oxidation Behaviour
Joost van Ginkel; Lisa Mitterhuber; Marijn Willem van de Putte; Mark Huijben; Sten Vollebregt; Guoqi Zhang;
Nanomaterials,
Volume 13, Issue 11, pp. 1778, 2023. DOI: 10.3390/nano13111778 - Copper Nanoparticle Sintering Enabled Hermetic Packaging With Fine Sealing Ring for MEMS Application
Dong Hu; Mustafeez Bashir Shah; Jiajie Fan; Sten Vollebregt; Guoqi Zhang;
IEEE Transactions on Electron Devices,
Volume 70, Issue 11, pp. 5818-5823, 2023. DOI: 10.1109/TED.2023.3312066 - Quantifying stress distribution in ultra-large graphene drums through mode shape imaging
Ali Sarafraz; Hanqing Liu; Katarina Cvetanović; Marko Spasenović; Sten Vollebregt; Tomas Manzaneque Garcia; Peter G. Steeneken; Farbod Alijani;
arXiv,
2023. DOI: 10.48550/arXiv.2311.00443 - Design and Characterization of a Data Converter in
a SiC CMOS Technology for Harsh Environment
Sensing Applications
Yunfan Niu; Jiarui Mo; Alexander May; Mathias Rommel; Chiara Rossi; Joost Romijn; Guoqi Zhang; Sten Vollebregt;
In Proc. of IEEE Sensors,
2023. DOI: 10.1109/SENSORS56945.2023.10325061 - High-performance wafer-scale transfer-free graphene microphones
Roberto Pezone; Gabriele Baglioni; Pasqualina M. Sarro; Peter G. Steeneken; Sten Vollebregt;
In IEEE 36th Intl. Conf. on Micro Electro Mechanical Systems (MEMS2023),
2023. DOI: 10.1109/MEMS49605.2023.10052360 - Silicon carbide reinforced vertically aligned carbon nanotube composite for harsh environment MEMS
Jiarui Mo; Shreyas Shankar; Guoqi Zhang; Sten Vollebregt;
In IEEE 36th Intl. Conf. on Micro Electro Mechanical Systems (MEMS2023),
2023. DOI: 10.1109/MEMS49605.2023.10052162 - Electromigration-induced local dewetting in Cu films
Yaqian Zhang; Jiarui Mo; Zhen Cui; Sten Vollebregt; GuoQi Zhang;
In Proc. of the IEEE International Interconnect Technology Conference,
2023. DOI: 10.1109/IITC/MAM57687.2023.10154761 - Reliability Analysis on Ag and Cu Nanoparticles Sintered Discrete Power Devices with Various Frontside and Backside Interconnects
Dong Hu; Xu Liu; Sten Vollebregt; Jiajie Fan; Guoqi Zhang; Ali Roshanghias; Xing Liu; Thomas Basler; Emiel De Bruin;
In Proc. of Electronic Components and Technology Conference (ECTC),
2023. - MOSFET-based And P-N Diode Based Temperature Sensors In A 4H-sSiC CMOS Technology
Jiarui Mo; Jinglin Li; Yaqian Zhang; Alexander May; Tobias Erlbacher; Guoqi Zhang; Sten Vollebregt;
In 22nd International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS 2023),
2023.
document - Wafer-scale Transfer-free Graphene MEMS Condenser Microphones
Roberto Pezone; Gabriele Baglioni; Leonardo di Paola; Pasqualina M. Sarro; Peter G. Steeneken; Sten Vollebregt;
In 22nd International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS 2023),
2023.
document - Graphene gas sensors monolithically integrated on microhotplates by using a transfer-free approach
Leandro Sacco; Sten Vollebregt;
In Graphene Week,
2023.
document - High aspect-ratio multi-layer graphene MEMS condenser microphones
Roberto Pezone; Gabriele Baglioni; Pasqualina M. Sarro; Peter G. Steeneken; Sten Vollebregt;
In Graphene Week,
2023.
document - Time Dependent Dielectric Breakdown of 4H-SiC MOSFETs in CMOS technology
Yaqian Zhang; Jiarui Mo; Sten Vollebregt; GuoQi Zhang;
In 24th International Conference on Electronic Packaging Technology (ICEPT),
2023. DOI: 10.1109/ICEPT59018.2023.10492218 - Multilayer CVD graphene electrodes using a transfer-free process for the next generation of optically transparent and MRI-compatible neural interfaces
Nasim Bakhshaee Babaroud; Merlin Palmar; Andrada Iulia Velea; Chiara Coletti; Sebastian Weingärtner; Frans Vos; Wouter A. Serdijn; Sten Vollebregt; Vasiliki Giagka;
Nature Microsystems & Nanoengineering,
Volume 8, pp. 107, 2022. (featured article). DOI: 10.1038/s41378-022-00430-x - Integrated Digital and Analog Circuit Blocks in a Scalable Silicon Carbide CMOS Technology
Joost Romijn; Sten Vollebregt; Luke M. Middelburg; Brahim El Mansouri; Henk W. van Zeijl; Alexander May; Tobias Erlbacher; Guoqi Zhang; Pasqualina M. Sarro;
IEEE Transactions on Electron Devices,
Volume 69, Issue 1, pp. 4-10, 2022. DOI: 10.1109/TED.2021.3125279 - Technology Development for MEMS: A Tutorial
Paddy J French; Gijs JM Krijnen; Sten Vollebregt; Massimo Mastrangeli;
IEEE Sensors Journal,
Volume 22, Issue 11, 2022. DOI: 10.1109/JSEN.2021.3104715 - Mass and density determination of porous nanoparticle films using a quartz crystal microbalance
Hendrik Joost van Ginkel; Sten Vollebregt; GuoQi Zhang; Andreas Schmidt-Ott;
IOP Nanotechnology,
Volume 33, Issue 48, 2022. DOI: 10.1088/1361-6528/ac7811 - Characterization of low-loss hydrogenated amorphous silicon films for superconducting resonators
Bruno T. Buijtendorp; Juan Bueno; David J. Thoen; Vignesh Murugesan; Paolo M. Sberna; Jochem J. A. Baselmans; Sten Vollebregt; Akira Endo;
J. of Astronomical Telescopes, Instruments, and Systems,
Volume 8, Issue 2, pp. 028006, 2022. DOI: 10.1117/1.JATIS.8.2.028006 - Effects of Temperature and Grain Size on Diffusivity of Aluminium: Electromigration Experiment and Molecular Dynamic Simulation
Zhen Cui; Yaqian Zhang; Dong Hu; Sten Vollebregt; Jiajie Fan, Xuejun Fan; Guoqi Zhang;
Journal of Physics: Condensed Matter,
Volume 34, pp. 175401, 2022. DOI: 10.1088/1361-648X/ac4b7f - Enhancement of Room Temperature Ethanol Sensing by Optimizing the Density of Vertically Aligned Carbon Nanofibers Decorated with Gold Nanoparticles
Mostafa Shooshtari; Leandro Nicolas Sacco; Joost Van Ginkel; Sten Vollebregt; Alireza Salehi;
MDPI Materials,
Volume 15, Issue 4, pp. 1383, 2022. DOI: 10.3390/ma15041383 - Sensitive Transfer-Free Wafer-Scale Graphene Microphones
Roberto Pezone; Gabriele Baglioni; Pasqualina M. Sarro; Peter G. Steeneken; Sten Vollebregt;
ACS Applied Materials & Interfaces,
Volume 14, Issue 18, pp. 21705-21712, 2022. DOI: 10.1021/acsami.2c03305 - Direct Wafer-Scale CVD Graphene Growth under Platinum Thin-Films
Yelena Hagendoorn; Gregory Pandraud; Sten Vollebregt; Bruno Morana; Pasqualina M. Sarro; Peter G. Steeneken;
MDPI Materials,
Volume 15, Issue 10, pp. 3723, 2022.
document - Angle Sensitive Optical Sensor for Light Source Tracker Miniaturization
Joost Romijn; Secil Sanseven; Guoqi Zhang; Sten Vollebregt; Pasqualina M. Sarro;
IEEE Sensors Letters,
Volume 6, Issue 6, pp. 1-4, 2022. DOI: 10.1109/LSENS.2022.3175607 - Hydrogenated amorphous silicon carbide: A low-loss deposited dielectric for microwave to submillimeter-wave superconducting circuits
B. T. Buijtendorp; S. Vollebregt; K. Karatsu; D. J. Thoen; V. Murugesan; K. Kouwenhoven; S. Hähnle; J. J. A. Baselmans; A. Endo;
Physical Review Applied,
Volume 18, pp. 064003, 2022. DOI: 10.1103/PhysRevApplied.18.064003 - Integrated 64 pixel UV image sensor and readout in a silicon carbide CMOS technology
Joost Romijn; Sten Vollebregt; Luke M. Middelburg; Brahim El Mansouri; Henk W. van Zeijl; Alexander May; Tobias Erlbacher; Johan Leijtens; Guoqi Zhang; Pasqualina M. Sarro;
Nature Microsystems & Nanoengineering,
Volume 8, pp. 114, 2022. DOI: 10.1038/s41378-022-00446-3 - Patterning of Fine-Features in Nanoporous Films Synthesized by Spark Ablation
Xinrui Ji; Joost van Ginkel; Dong Hu; Andreas Schmidt-Ott; Henk van Zeijl; Sten Vollebregt; GuoQi Zhang;
In Proc. IEEE Nano,
pp. 238-241, 2022. DOI: 10.1109/NANO54668.2022.9928705 - Visible Blind Quadrant Sun Position Sensor in a Silicon Carbide Technology
Joost Romijn; Sten Vollebregt; Alexander May; Tobias Erlbacher; Henk W. van Zeijl; Johan Leijtens; GuoQi Zhang; Pasqualina M. Sarro;
In 35th Intl. Conf. on Micro Electro Mechanical Systems (MEMS 2022),
2022. DOI: 10.1109/MEMS51670.2022.9699533 - Synthesis of Carbon Nanofibers (CNFs) by PECVD Using Ni Catalyst Printed by Spark Ablation
Leandro Sacco; Joost van Ginkel; Sten Vollebregt;
In Proc. IEEE Nano,
pp. 128-131, 2022. DOI: 10.1109/NANO54668.2022.9928632 - ZnO Nanoparticle Printing for UV Sensor Fabrication
Hendrik Joost van Ginkel; Mattia Orvietani; Joost Romijn; GuoQi Zhang; Sten Vollebregt;
In Proc. of IEEE Sensors,
2022. DOI: 10.1109/SENSORS52175.2022.9967053 - Humidity Sensor Based on Multi-Layer Graphene (MLG) Integrated Onto a Micro-Hotplate (MHP)
Leandro Sacco; Hanxing Meng; Sten Vollebregt;
In Proc. of IEEE Sensors,
2022. DOI: 10.1109/SENSORS52175.2022.9967039 - Transfer-free multi-layer graphene as a platform for NEMS/MEMS sensors
Sten Vollebregt;
In MNE-ES conference (plenary),
2022. - Transfer-free multi-layered graphene (MLG) on integrated microheaters: an attractive platform for gas sensing
Leandro Sacco; Hanxing Meng; Sten Vollebregt;
In MNE-ES conference,
2022. - Wafer-Scale Transfer-Free Sensitive Graphene Microphones
Roberto Pezone; G. Baglioni; P.M. Sarro; P.G. Steeneken; S. Vollebregt;
In Graphene Week,
2022.
document - Characterization of ultra-sensitive graphene membranes for microphone
applications
Gabriele Baglioni; Roberto Pezone; Sten Vollebregt; Katarina Cvetanović; Marko Spasenović; Dejan Todorović; Hanqing Liu; Gerard J. Verbiest; Herre S.J. van der Zant; Peter G. Steeneken;
In Graphene Week,
2022.
document - Low-loss a-SiC:H for superconducting microstrip lines for (sub-)millimeter astronomy
Bruno T. Buijtendorp; Akira Endo; Kenichi Karatsu; David Thoen; Vignesh Murugesan; Kevin Kouwenhoven; Sebastian Hähnle; Jochem J. A. Baselmans; Sten Vollebregt;
In Proc. SPIE PC12190, Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy XI,
pp. PC121900W, 2022. DOI: 10.1117/12.2630107 - Multi-Layer Graphene Pirani Pressure Sensors
Romijn, Joost; Dolleman, Robin; Singh, Manvika; van der Zant, Herre; Steeneken, Peter; Sarro, Pasqualina; Vollebregt, Sten;
IOP Nanotechnology,
Volume 32, Issue 33, pp. 335501, 2021. DOI: 10.1088/1361-6528/abff8e - Effect of Temperature and Humidity on the Sensing Performance of TiO2 Nanowire-based Ethanol Vapor Sensors
Mostafa Shooshtari; Alireza Salehi; Sten Vollebregt;
IOP Nanotechnology,
Volume 32, Issue 32, pp. 325501, 2021. DOI: 10.1088/1361-6528/abfd54 - Surface-micromachined Silicon Carbide Pirani Gauges for Harsh Environments
Jiarui Mo; Luke Middelburg; Bruno Morana; H.W. Van Zeijl; Sten Vollebregt; GuoQi Zhang;
IEEE Sensors Letters,
Volume 21, Issue 2, pp. 1350-1358, 2021. DOI: 10.1109/JSEN.2020.3019711 - Monolithic Integration of a Smart Temperature Sensor on a Modular Silicon-based Organ-on-a-chip Device
Ronaldo Martins da Ponte; Nikolas Gaio; Henk van Zeijl; Sten Vollebregt; Paul Dijkstra; Ronald Dekker; Wouter A. Serdijn; Vasiliki Giagka;
Sensors and Actuators A: Physical,
Volume 317, pp. 112439, 2021. DOI: 10.1016/j.sna.2020.112439
document - Influence of defect density on the gas sensing properties of multi-layered graphene grown by chemical vapor deposition
Filiberto Ricciardella; Sten Vollebregt; Rita Tilmann; Oliver Hartwig; Cian Bartlam; Pasqualina M. Sarro; Hermann Sachdev; Georg S.Duesberg;
Carbon Trends,
Volume 3, pp. 100024, 2021.
document - Insights into the high-sulphur aging of sintered silver nanoparticles: An experimental and ReaxFF study
Dong Hu; Tijian Gu; Zhen Cui; Sten Vollebregt; Xuejun Fan; Guoqi Zhang; Jiajie Fan;
Corrosion Science,
pp. 109846, 2021. DOI: 10.1016/j.corsci.2021.109846 - Hydrogenated Amorphous Silicon Carbide: A Low-loss Deposited Dielectric for Microwave to Submillimeter Wave Superconducting Circuits
B. T. Buijtendorp; S. Vollebregt; K. Karatsu; D. J. Thoen; V. Murugesan; K. Kouwenhoven; S. Hähnle; J. J. A. Baselmans, A. Endo;
arXiv,
2021.
document - 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 - Transfer-free multi-layer graphene: a platform for NEMS/MEMS sensors
Sten Vollebregt;
In Graphene Conference,
2021. (invited). - Wafer-scale graphene: a transfer-free approach
Sten Vollebregt;
In Graphene Online,
2021. (invited).
document - Towards a Scalable Sun Position Sensor with Monolithic Integration of the 3d Optics for Miniaturized Satellite Attitude Control
J. Romijn; S. Vollebregt; H. W. van Zeijl; G. Zhang; J. Leijtens; P. M. Sarro;
In 2021 IEEE 34th International Conference on Micro Electro Mechanical Systems (MEMS),
pp. 642-645, Jan 2021. DOI: 10.1109/MEMS51782.2021.9375434 - Resistive and PTAT Temperature Sensors in a Silicon Carbide CMOS Technology
Joost Romijn; Luke M. Middelburg; Sten Vollebregt; Brahim El Mansouri; Henk W. van Zeijl; Alexander May; Tobias Erlbacher; Guoqi Zhang; and Pasqualina M. Sarro;
In Proc. of IEEE Sensors,
2021. - High step coverage interconnects by printed nanoparticles
Hendrik Joost van Ginkel; Joost Romijn; Sten Vollebregt; GuoQi Zhang;
In Proc. of the 23rd European Microelectronics and Packaging Conference & Exhibition (EMPC),
2021. - Low-loss dielectric for high frequency cryogenic applications
J.J.A. Baselmans; B.T. Buijtendorp; A. Endo; S. Vollebregt;
Patent, NL2024742B1; WO2021150101, 2021. - Low-friction, wear-resistant, and electrically homogeneous multilayer graphene grown by chemical vapor deposition on molybdenum
Borislav Vasic; Uros Ralevic; Katarina Cvetanovic Zobenica; Milce Smiljanic; Rados Gajic; Marko Spasenovic; Sten Vollebregt;
Applied Surface Science,
Volume 509, pp. 144792, 2020. DOI: 10.1016/j.apsusc.2019.144792 - Infrared absorbance of vertically-aligned multi-walled CNT forest as a function of synthesis temperature and time
Amir Mirza Gheytaghia; Amir Ghaderi; Sten Vollebregt; Majid Ahmadic; Reinoud Wolffenbuttel; GuoQi Zhang;
Materials Research Bulletin,
2020. DOI: 10.1016/j.materresbull.2020.110821 - Toward a Self-Sensing Piezoresistive Pressure Sensor for all-SiC Monolithic Integration
L.M. Middelburg; H.W. van Zeijl; S. Vollebregt; B. Morana; GuoQi Zhang;
IEEE Sensors,
Volume 20, Issue 19, pp. 11265-11274, 2020. DOI: 10.1109/JSEN.2020.2998915 - Low-Humidity Sensing Properties of Multi-Layered Graphene Grown by Chemical Vapor Deposition
Filiberto Ricciardella; Sten Vollebregt; Tiziana Polichetti; Pasqualina M. Sarro; Georg S. Duesberg;
MDPI Sensors,
Volume 20, Issue 11, pp. 3174, 2020.
document - Wafer-scale transfer-free process of multi-layered graphene grown by chemical vapor deposition
Filiberto Ricciardella; Sten Vollebregt; Bart Boshuizen; F.J.K. Danzl; Ilkay Cesar; Pierpaolo Spinelli; Pasqualina Maria Sarro;
Material Research Express,
2020. DOI: 10.1088/2053-1591/ab771e - Vertically-Aligned Multi-Walled Carbon Nano Tube Pillars with Various Diameters under Compression: Pristine and NbTiN Coated
Amir Mirza Gheitaghy; René H. Poelma; Leandro Sacco; Sten Vollebregt; GuoQi Zhang;
MDPI Nanomaterials,
Volume 10, Issue 6, pp. 1189, 2020. DOI: 10.3390/nano10061189 - The influence of H2 and NH3 on catalyst nanoparticle formation and carbon nanotube growth
R. Pezone; S. Vollebregt; P.M. Sarro; Sandeep Unnikrishnan;
Carbon,
Volume 170, pp. 384-393, 2020.
document - Low power AlGaN/GaN MEMS pressure sensor for high vacuum application
Jianwen Sun; Dong Hu; Zewen Liu; Luke Middelburg; Sten Vollebregt; Pasqualina M. Sarro; Guoqi Zhang;
Sensors and Actuators A: Physical,
Volume 314, pp. 112217, 2020.
document - Effect of Humidity on Gas Sensing Performance of Carbon Nanotube Gas Sensors Operated at Room Temperature
Mostafa Shooshtari; Alireza Salehi; Sten Vollebregt;
IEEE Sensors,
2020.
document - Recent advances in 2D/nanostructured metal sulfide-based gas sensors: mechanisms, applications, and perspectives
Hongyu Tang; Leandro Sacco; Sten Vollebregt; Huaiyu Ye; Xuejun; Fan; GuoQi Zhang;
Journal of Materials Chemistry A,
Volume 8, pp. 24943-24976, 2020.
document - Soft, flexible and transparent graphene-based active spinal cord implants for optogenetic studies
A. Velea; S. Vollebregt; Vasiliki Giagka;
13th International Symposium on Flexible Organic Electronics (ISFOE20),
2020. Scientific Poster.
document - Functionalisation of Multi-Layer Graphene-Based Gas Sensor by Au Nanoparticles
Morelli, Laura; Ricciardella, Filiberto; Koole, Max; Persijn, Stefan; Vollebregt, Sten;
Proceedings,
Volume 56, Issue 1, pp. 1, Dec 2020. DOI: 10.3390/proceedings2020056001
document - Functionalization of multi-layer graphene-based gas sensor by Au nanoparticles
Laura Morelli; Filiberto Ricciardelli; Max Koole; Stefan Persijn; Sten Vollebregt;
In Proc. of NanoFIS,
2020. - 3D-impaction printing of porous layers
van Ginkel, H. J.; Roels, P.; Boeije, M. F. J.; Pfeiffer, T. V.; Vollebregt, S.; GuoQi Zhang; Schmidt-Ott, A.,;
In European Aerosol Conference,
2020. - Wafer-scale Graphene-based Soft Implant with Optogenetic Compatibility
Andrade Velea; Sten Vollebregt; Gandhika Wardhana; Vasso Giagka;
In IEEE Int. Conf. on Micro Electro Mechanical Systems (MEMS 2020),
2020. - Characterization of low-loss hydrogenated amorphous silicon films for superconducting resonators
B. T. Buijtendorp; J. Bueno; D. J. Thoen; V. Murugesan; P. M. Sberna; J. J. A. Baselmans; S. Vollebregt; A. Endo;
In Proc. SPIE 11453, Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy X,
2020.
document - Analysis of a calibration method for non-stationary CVD multi-layered graphene-based gas sensors
Filiberto Ricciardella; Tiziana Polichetti; Sten Vollebregt; Brigida Alfano; Ettore Massera; Lina Sarro;
IOP Nanotechnology,
Volume 30, pp. 385501-1-8, 2019. DOI: 10.1088/1361-6528/ab2aac
document - Growth of multi-layered graphene on molybdenum catalyst by solid phase reaction with amorphous carbon
Filiberto Ricciardella; Sten Vollebregt; Evgenia Kurganova; A.J.M. Giesbers; Majid Ahmadi; Lina Sarro;
2D Materials,
Volume 6, pp. 035012, 2019. DOI: 10.1088/2053-1583/ab1518 - Mass measurement of graphene using quartz crystal microbalances
Robin J Dolleman; Mick Hsu; Sten Vollebregt; John E Sader; Herre SJ van der Zant; Peter G Steeneken; Murali K Ghatkesar;
Applied Physics Letters,
Volume 115, Issue 5, pp. 053102, 2019. DOI: 10.1063/1.5111086
document - Towards an Active Graphene-PDMS Implant
Wardhana, G. K.; Serdijn, W.; Vollebregt, S.; Giagka, V.;
In Abstract from 7th Dutch Bio-Medical Engineering Conference,
2019.
document - Compressive response of pristine and superconductor coated MWCNT pillars
A. M. Gheytaghi; S. Vollebregt; R.H. Poelma; H. W. Zeijl; GuoQi Zhang;
In IEEE MEMS,
2019. - Wafer-scale integration of CVD graphene on CMOS devices using a transfer-free approach
Sten Vollebregt; Joost Romijn; Henk W. van Zeijl; Pasqualina M. Sarro;
In Graphene Week,
2019. - Free-standing, Transfer-free Graphene-based Differential Pressure Sensors
R. Ramesha; S. Vollebregt; P.M. Sarro;
In SAFE/ProRISC,
2019. - Transfer-free Graphene-based Differential Pressure Sensor
Raghutham Ramesha; Sten Vollebregt; Lina Sarro;
In Proc. IEEE NMDC,
2019. - Towards a Microfabricated Flexible Graphene-Based Active Implant for Tissue Monitoring During Optogenetic Spinal Cord Stimulation
Andrada Iulia Velea; Sten Vollebregt; Tim Hosman; Anna Pak; Vasiliki Giagka;
In Proc. IEEE NMDC,
2019. - Flexible, graphene-based acive implant for spinal cord stimulation in rodents
Andrada Velea; Sten Vollebregt; Vasiliki Giagka;
In SAFE/ProRISC,
2019. - A wafer-scale process for the monolithic integration of CVD graphene and CMOS logic for smart MEMS/NEMS sensors
Joost Romijn; Sten Vollebregt; Henk W. van Zeijl; Pasqualina M. Sarro;
In IEEE 32nd International Conference on Micro Electro Mechanical Systems (MEMS). Piscataway: IEEE,
2019. DOI: 10.1109/MEMSYS.2019.8870741 - Graphene pellicle lithographic apparatus
Evgenia Kurganova; Jos Giesbers; Maria Peter; Maxim Naselevich; Arnoud Notenboom; Alexander Klein; Pieter-Jan van Zwol; David Vles; Pim Voorthuijzen; Sten Vollebregt;
Patent, WO2019170356, 2019. - Full wafer transfer-free graphene
Filiberto Ricciardella; Sten Vollebregt; Lina Sarro;
Patent, WO2019125140; NL2020111, 2019. - Grafeen: een zoektocht naar de toepassing
Sten Vollebregt; Jos Giesbers; Johan Klootwijk;
Nederlands Tijdschrift voor Natuurkunde,
pp. 16-20, September 2018. - Carbon Nanotube Array: Scaffolding Material for Opto, Electro, Thermo, and Mechanical Systems
Amir M. Gheytaghi; H. van Zeijl; S. Vollebregt; R.H. Poelma; C. Silvestri; R. Ishihara; G. Q. Zhang; P. M. Sarro;
Innovative Materials,
Volume 3, pp. 22-25, 2018. - Effects of Conformal Nanoscale Coatings on Thermal Performance of Vertically Aligned Carbon Nanotubes
Cinzia Silvestri; Michele Riccio; René H. Poelma; Aleksandar Jovic; Bruno Morana; Sten Vollebregt; Andrea Irace; GuoQi Zhang; Pasqualina M. Sarro;
Small,
Volume 14, Issue 20, pp. 1800614, 2018. DOI: 10.1002/smll.201800614 - A transfer-free approach to wafer-scale graphene deposited by chemical vapour deposition
Sten Vollebregt; Filiberto Ricciardella; Joost Romijn; Manvika Singh; Shengtai Shi; Lina Sarro;
In Graphene Conference,
2018. (invited).
document - Making large free-standing multi-layer graphene/graphitic membranes
Evgenia Kurganova; A.J.M. Giesbers; Sten Vollebregt; Arnoud Notenboom; David Vles; Maxim Nasalevich; Peter van Zwol;
In Graphene Conference,
2018. - A Miniaturized Low Power Pirani Pressure Sensor Based on Suspended Graphene
Joost Romijn; Sten Vollebregt; Robin J. Dolleman; Manvika Singh; Herre S.J. van der Zant; Peter G. Steeneken; Pasqualina M. Sarro;
In Proceedings of IEEE NEMS,
2018. - Wafer-scale CVD graphene integration: a transfer-free approach
Sten Vollebregt;
In GrapChina,
2018. (invited). - Wafer Level Through-polymer Optical Vias (TPOV) Enabling High Throughput of Optical Windows Manufacturing
Z. Huang; R.H. Poelma; S. Vollebregt; M.H. Koelink; E. Boschman; R. Kropf; M. Gallouch; GuoQi Zhang;
In IEEE Electronics System-Integration Technology Conference (ESTC),
pp. 1-5, 2018. - Effect of droplet shrinking on surface acoustic wave response in microfluidic applications
Thu Hang Bui; Van Nguyen; Sten Vollebregt; Bruno Morana; Henk van Zeijl; Trinh Chu Duc; P.M. Sarro;
Applied Surface Science,
Volume 426, pp. 253-261, 2017.
document - Effects of Graphene Monolayer Coating on the Optical Performance of Remote Phosphors
Maryam Yazdan Mehr; S. Vollebregt; W. D. van Driel; GuoQi Zhang;
Journal of Electronic Materials,
Volume 46, Issue 10, pp. 5866--5872, 2017. DOI: 10.1007/s11664-017-5592-8
Keywords: ...
graphene, Light-emitting diode, reliability, remote phosphor. - Effects of graphene defects on gas sensing properties towards NO2 detection
Filiberto Ricciardella; Sten Vollebregt; Tiziana Polichetti; Mario Miscuglio; Brigida Alfano; Maria L. Miglietta; Ettore Massera; Girolamo Di Francia; Pasqualina M. Sarro;
Nanoscale,
Volume 9, pp. 6085-6093, 2017.
document - CVD transfer-free graphene for sensing applications
Chiara Schiattarella; Sten Vollebregt; Tiziana Polichetti; Brigida Alfano; Ettore Massera; Maria Lucia Miglietta; Girolamo Di Francia; Pasqualina Maria Sarro;
Beilstein Journal of Nanotechnology,
Volume 8, pp. 1015-1022, 2017.
document - Carbon Nanotubes as Vertical Interconnects for 3D Integrated Circuits
Sten Vollebregt; Ryoichi Ishihara;
In Carbon Nanotubes for Interconnects,
Springer International Publishing, 2017.
document - A transfer-free wafer-scale method for the fabrication of suspended graphene beams for squeeze-film pressure sensors
S. Vollebregt; R.J. Dolleman; H.S.J. van der Zant; P.G. Steeneken; P.M. Sarro;
In Graphene Week,
2017. - An Innovative Approach to Overcome Saturation and Recovery Issues of CVD graphene-Based Gas Sensors
F. Ricciardella; S. Vollebregt; T. Polichetti; B. Alfano; E. Massera; P. M. Sarro;
In Proceedings of IEEE Sensors Conference,
pp. 1224-1226, 2017. - Wafer-scale measurements of the specific contact resistance between different metals and mono- and multi-layer graphene
S. Vollebregt; M. Singh; D.J. Wehenkel; R. van Rijn; P.M. Sarro;
In Proc. of the 43rd international conference on Micro and Nanoengineering (MNE),
pp. 152, 2017. - Low Temperature CVD Grown Graphene for Highly Selective Gas Sensors Working under Ambient Conditions
Filiberto Ricciardella; Sten Vollebregt; Tiziana Polichetti; Brigida Alfano; Ettore Massera; Pasqualina M. Sarro;
In Proceedings of Eurosensors 2017,
pp. 445, 2017.
document - High sensitive CVD graphene-based gas sensors operating under environmental conditions
Filiberto Ricciardella; Sten Vollebregt; Tiziana Polichetti; Brigida Alfano; Ettore Massera; Pasqualina M. Sarro;
In Graphene Conference,
2017. - Horizontally aligned carbon nanotube scaffolds for freestanding structures with enhanced conductivity
Cinzia Silvestri; Federico Marciano; Bruno Morana; Violeta Podranovic; Sten Vollebregt; GuoQi Zhang; Pasqualina M Sarro;
In Micro Electro Mechanical Systems (MEMS), 2017 IEEE 30th International Conference on,
pp. 266-269, 2017. - Suspended graphene beams with tunable gap for squeeze-film pressure sensing
S. Vollebregt; R.J. Dolleman; H.S.J. van der Zant; P.G. Steeneken; P.M. Sarro;
In Proc.of Transducers 2017, the 19th International Conference on Solid-state Sensors, Actuators, and Microsystems,
pp. 770-773, 2017. - Fabrication and characterization of an Upside-down Carbon Nanotube (CNT) Microelectrode array (MEA)
Gaio, N.; Silvestri, C.; van Meer, B.; Vollebregt, S.; Mummery, C.; Dekker, R.;
IEEE Sensors Journal,
Volume 16, Issue 24, pp. 8685, 2016. - Thermal characterization of carbon nanotube foam using MEMS microhotplates and thermographic analysis
Cinzia Silvestri; Michele Riccio; Rene Poelma; Bruno Morana; Sten Vollebregt; Fabio Santagata; Andrea Irace; GuoQi Zhang; Pasqualina M. Sarro;
Nanoscale,
Volume 8, pp. 8266-8275, 2016.
document - Stretchable Binary Fresnel Lens for Focus Tuning
Xueming Li; Lei Wei; Ren� H. Poelma; Sten Vollebregt; Jia Wei; Hendrik Paul Urbach; Pasqualina M. Sarro; GuoQi Zhang;
Scientific Reports,
Volume 6, pp. 25348, 2016. - The growth of carbon nanotubes on electrically conductive ZrN support layers for through-silicon vias
Sten Vollebregt; Sourish Banerjee; Frans D. Tichelaar; Ryoichi Ishihara;
Microelectronic Engineering,
Volume 156, pp. 126-130, 2016.
document - The Direct Growth of Carbon Nanotubes as Vertical Interconnects in 3D Integrated Circuits
Sten Vollebregt; Ryoichi Ishihara;
Carbon,
Volume 96, pp. 332-338, 2016.
document - High sensitive gas sensors realized by a transfer-free process of CVD graphene
Filiberto Ricciardella; Sten Vollebregt; Tiziana Polichetti; Brigida Alfano; Ettore Massera; Lina Sarro;
In Proceedings of the IEEE Sensors conference,
2016. - A predefined wafer-scale CVD graphene deposition method requiring no transfer
Sten Vollebregt; Lina Sarro;
In Graphene Week,
2016. - A transfer-free wafer-scale CVD graphene fabrication process for MEMS/NEMS sensors
S. Vollebregt; B. Alfano; F. Ricciardella; A.J.M. Giesbers; Y. Grachova; H.W. van Zeijl; T. Polichetti; P.M. Sarro;
In Proc. of the 29th IEEE International Conference of Micro Electro Mechanical Systems,
pp. 17-20, 2016. - Fabrication of Low Temperature Carbon Nanotube Vertical Interconnects Compatible with Semiconductor Technology
S. Vollebregt; R. Ishihara;
Journal of Visual Experiments,
Volume 106, pp. e53260, 2015.
document - Impact of the atomic layer deposition precursors diffusion on solid-state carbon nanotube based supercapacitors performances
G Fiorentino; S Vollebregt; FD Tichelaar; R Ishihara; PM Sarro;
IOP Nanotechnology,
Volume 26, Issue 6, pp. 064002, 2015.
document - 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. - Carbon nanotubes TSV grown on an electrically conductive ZrN support layer
Sten Vollebregt; Sourish Banerjee; Frans D. Tichelaar; Ryoichi Ishihara;
In IEEE International Interconnect Technology Conference,
pp. 281-283, 2015. - Molybdenum grown CVD graphene Schottky diodes
S. Vollebregt; F. Ricciardella; Y. Grachova; T. Polichetti; P.M. Sarro;
In Graphene Week,
2015. - Tunable binary fresnel lens based on stretchable PDMS/CNT compsite
Xueming Li; L. Wei; S. Vollebregt; R. Poelma; Y. Shen; Jia Wei; P. Urbach; P.M. Sarro; GuoQi Zhang;
In Transducers,
pp. 2041-2044, 2015. - Crystallinity variations over the length of vertically aligned carbon nanotubes grown by chemical vapour deposition
S. Vollebregt; P. Padmanabhan; C. Silvestri; P.M. Sarro;
In 41st Micro and Nano Engineering conference,
2015. - The Role of Edge Defects in Liquid Phase Exfoliated and Chemical Vapor Deposited Graphene for NO2 Detection
F Ricciardella; S Vollebregt; T Polichetti; B Alfano; PM Sarro; ML Miglietta; E Massera; G Di Francia;
In GraphITA,
2015. - Upside-down Carbon Nanotube (CNT) Micro-electrode Array (MEA)
N. Gaio; B. van Meer; C. Silvestri; Saeed Khoshfetrat Pakazad; S. Vollebregt; C.L. Mummery; R. Dekker;
In IEEE Sensors Conference,
2015. - Dominant thermal boundary resistance in multi-walled carbon nanotube bundles fabricated at low temperature
Vollebregt, Sten; Banerjee, Sourish; Chiaramonti, Ann N; Tichelaar, Frans D; Beenakker, Kees; Ishihara, Ryoichi;
Journal of Applied Physics,
Volume 116, Issue 2, pp. 023514, 2014. - Carbon nanotube vertical interconnects fabricated at temperatures as low as 350 �C
Vollebregt, Sten; Tichelaar, FD; Schellevis, H; Beenakker, CIM; Ishihara, R;
Carbon,
Volume 71, pp. 249--256, 2014. - Failure Analysis and Reliability of Low-Temperature-Grown Multi-Wall Carbon Nanotube Bundles Integrated as Vias in Monolithic Three-Dimensional Integrated Circuits
Chiaramonti, Ann N; Vollebregt, Sten; Sanders, Aric W; Ishihara, Ryoichi; Read, David T;
Microsc. Microanal,
Volume 20, pp. 1762-1763, 2014. - Tailoring the Mechanical Properties of High-Aspect-Ratio Carbon Nanotube Arrays using Amorphous Silicon Carbide Coatings
Poelma, RH; Morana, Bruno; Vollebregt, Sten; Schlangen, Erik; van Zeijl, HW; Fan, Xuejun; Zhang, GuoQi;
Advanced Functional Materials,
Volume 24, Issue 36, pp. 5737-5744, 2014.
document - Carbon Nanotube Vertical Interconnects: Prospects and Challenges
Vollebregt, S; Beenakker, CIM; Ishihara, R;
In Micro-and Nanoelectronics: Emerging Device Challenges and Solutions,
CRC Press, 2014. - High Quality Wafer-scale CVD Graphene on Molybdenum Thin Film for Sensing Application
Yelena Grachova; Sten Vollebregt; Andrea Leonardo Lacaita; Pasqualina M. Sarro;
In Procedia Engineering 87: EUROSENSORS 2014, the 28th European Conference on Solid-State Transducers,
pp. 1501-1504, 2014.
document - 3D solid-state supercapacitors obtained by ALD coating of high-density carbon nanotubes bundles
Fiorentino, Giuseppe; Vollebregt, Sten; Tichelaar, FD; Ishihara, Ryoichi; Sarro, Pasqualina M;
In Micro Electro Mechanical Systems (MEMS), 2014 IEEE 27th International Conference on,
IEEE, pp. 342--345, 2014. - CNT bundles growth on microhotplates for direct measurement of their thermal properties
C. Silvestri; B. Morana; G. Fiorentino; S. Vollebregt; G. Pandraud; F. Santagata; GuoQi Zhang; P.M. Sarro;
In 27th IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2014),
San Francisco, USA, Jan. 2014.
document - Carbon Nanotubes as Vertical Interconnects in 3D Integrated Circuits
Sten Vollebregt;
PhD thesis, Delft University of Technology, 2014.
document - Size-Dependent Effects on the Temperature Coefficient of Resistance of Carbon Nanotube Vias
Vollebregt, Sten; Banerjee, Sourish; Beenakker, Kees; Ishihara, Ryoichi;
Electron Devices, IEEE Transactions on,
Volume 60, Issue 12, pp. 4085--4089, 2013. - Thermal conductivity of low temperature grown vertical carbon nanotube bundles measured using the three-ω method.
S. Vollebregt; S. Banerjee; C.I.M. Beenakker; R. Ishihara;
Applied Physics Letters,
Volume 102, Issue 19, pp. 1-4, 2013. - Towards the integration of carbon nanotubes as vias in monolithic three-dimensional integrated circuits
S. Vollebregt; Chiaramonti A.N.; J. van der Cingel; C.I.M. Beenakker; R. Ishihara;
Japanese Journal of Applied Physics. Part 1, Regular Papers Brief Communications & Review Papers,
Volume 52, Issue 1-5, 2013. - Integrating low temperature aligned carbon nanotubes as vertical interconnects in Si technology
Sten Vollebregt; Ryoichi Ishihara; Jaber J. Derakhshandehohan van der Cingel; Hugo Schellevis; C.I.M. Beenakker;
In Nanoelectronic Device Applications Handbook,
Taylor and Francis, 2013. - Carbon Nanotubes as Interconnects in Integrated Circuits
Vollebregt, S; Ishihara, R; Beenakker, CIM;
In Dekker Encyclopedia of Nanoscience and Nanotechnology, Second Edition,
Taylor and Francis, 2013. - Carbon nanotube vias fabricated at back-end of line compatible temperature using a novel CoAl catalyst
S. Vollebregt; H. Schellevis; C.I.M. Beenakker; R. Ishihara;
In S. Ogawa (Ed.), IEEE International Interconnect Technology Conference-technical papers,
Kyoto, Japan, Jun. 2013. - Carbon Nanotube based heat-sink for solid state lighting
F. Santagata; G. Almanno; S. Vollebregt; C Silvestri; GuoQi Zhang; P.M. Sarro;
In 8th IEEE Int. Conf. Nano/Micro Engineered and Molecular Systems (NEMS),
pp. 1214-1217, Apr 2013. DOI 10.1109/NEMS.2013.6559937. - Influence of the growth temperature on the first and second-order Raman band ratios and widths of carbon nanotubes and fibers
S. Vollebregt; R. Ishihara; F.D. Tichelaar; Y. Hou; C.I.M. Beenakker;
Carbon,
Volume 50, Issue 10, pp. 3542-3554, Aug. 2012. DOI 10.1016/j.carbon.2012.03.026. - Integrating carbon nanotubes as vias in a monolithic 3DIC process
S. Vollebregt; R. Ishihara; A.N. Chiaramonti; J. van der Cingel; C.I.M. Beenakker;
In Proc. International Conference on Solid State Devices and Materials (SSDM 2012),
Kyoto, Japan, pp. 1170-1171, Sep 2012. - Electrical characterization of carbon nanotube vertical interconnects with different lengths and widths
S. Vollebregt; R. Ishihara; F.D. Tichelaar; J. van der Cingel; C.I.M. Beenakker;
In IEEE International Interconnect Technology Conference (IITC 2012),
San Jose, CA, USA, pp. 1-3, Jun. 2012. DOI 10.1109/IITC.2012.6251578. - Low-temperature bottom-up integration of carbon nanotubes for vertical interconnects in monolithic 3D integrated circuits
S. Vollebregt; R. Ishihara; J. van der Cingel; C.I.M. Beenakker;
In 3rd IEEE International 3D Systems Integration Conference (3DIC 2011),
Osaka, Japan, Jan. 2012. DOI 10.1109/3DIC.2012.6262989. - Multilayer conformal coating of highly dense Multi-Walled Carbon Nanotubes bundles
G. Fiorentino; S. Vollebregt; R. Ishihara; P.M. Sarro;
In 2012 12th IEEE Conference on Nanotechnology (IEEE-NANO),
Birmingham, UK, Aug. 2012. ISBN 978-1-4673-2198-3; DOI 10.1109/NANO.2012.6322054. - Contact resistance of low-temperature carbon nanotube vertical interconnects
S. Vollebregt; A.N. Chiaramonti; R. Ishihara; H. Schellevis; C.I.M. Beenakker;
In K. Jiang (Ed.), 2012 12th IEEE Conference on Nanotechnology (IEEE-NANO),
Birmingham, UK, Aug. 2012. ISBN 978-1-4673-2198-3; DOI 10.1109/NANO.2012.6321985. - Electrical characterisation of low temperature aligned carbon nanotubes for vertical interconnects
S. Vollebregt; R. Ishihara; J. van der Cingel; H. Schellevis; C.I.M. Beenakker;
In Proc. ICT.OPEN: Micro technology and micro devices (SAFE 2011),
Veldhoven, The Netherlands, Nov. 2011. - Use of multi-wall carbon nanotubes as an absorber in a thermal detector
H. Wu; S. Vollebregt; A. Emadi; G. de Graaf; R. R. IshiharaF. Wolffenbuttel;
In C. Tsamis; G. Kaltas (Ed.), Proc. Eurosensors XXV,
Athens, Greece, Procedia Engineering, pp. 523-526, Sep. 2011. DOI 10.1016/j.proeng.2011.12.130. - Integrating low temperature aligned carbon nanotubes as vertical interconnects in Si technology
S. Vollebregt; R. Ishihara; J. J. Derakhshandeh. van der Cingel; H. Schellevis; C.I.M. Beenakker;
In Proc. 11th IEEE International Conference on Nanotechnology (NANO 2011),
Portland, OR, pp. 985-990, Aug. 2011. - Patterned aligned carbon nanotubes for vertical interconnects in 3D integrated TFT circuits
S. Vollebregt; R. Ishihara; J. J. Derakhshandeh. van der Cingel; W.H.A. Wien; C.I.M. Beenakker;
In 7th International Thin-Film Transistor Conference,
Cambridge, United Kingdom, Mar. 2011. - Growth of high density aligned carbon nanotubes using palladium as catalyst
S. Vollebregt; J. Derakhshandeh; R. Ishihara; M. Y. Wu; C. I. M. Beenakker;
Journal of Electronic Materials,
Volume 39, Issue 4, pp. 371-375, 2010. - Patterned growth of carbon nanotubes for vertical interconnect in 3D integrated circuits
S. Vollebregt; R. Ishihara; J. Derakhshandeh; W. Wien; J. van der Cingel; C.E.M. Beenakker;
In Proc. of SAFE 2010,
pp. 184-187, 2010. - Investigating Low Temperature High Density Aligned Carbon Nanotube and Nanofilament Growth using Palladium as Catalyst
S. Vollebregt; J. Derakhshandeh; M.Y. Wu; R. Ishihara; C.I.M. Beenakker;
In SAFE 2009,
STW, pp. 125-128, 2009. - Growth of high density aligned carbon nanotubes using palladium as catalyst
S. Vollebregt; J. Derakhshandeh; R. Ishihara; C.I.M. Beenakker;
In Proceedings of Electronic Material conference 2009,
USA, 2009.
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