Christian Zorman
Christian Zorman
F. Alex Nason Professor I, Electrical, Computer and Systems Engineering, Case Western Reserve
Verified email at
Cited by
Cited by
Nanodevice motion at microwave frequencies
XM Henry Huang, CA Zorman, M Mehregany, ML Roukes
Nature 421 (6922), 496-496, 2003
Silicon carbide MEMS for harsh environments
M Mehregany, CA Zorman, N Rajan, CH Wu
Proceedings of the IEEE 86 (8), 1594-1609, 1998
Evaluation of MEMS materials of construction for implantable medical devices
G Kotzar, M Freas, P Abel, A Fleischman, S Roy, C Zorman, JM Moran, ...
Biomaterials 23 (13), 2737-2750, 2002
Monocrystalline silicon carbide nanoelectromechanical systems
YT Yang, KL Ekinci, XMH Huang, LM Schiavone, ML Roukes, CA Zorman, ...
Applied Physics Letters 78 (2), 162-164, 2001
Polytype control of spin qubits in silicon carbide
AL Falk, BB Buckley, G Calusine, WF Koehl, VV Dobrovitski, A Politi, ...
Nature communications 4 (1), 1819, 2013
SiC MEMS: opportunities and challenges for applications in harsh environments
M Mehregany, CA Zorman
Thin solid films 355, 518-524, 1999
Wearable sensors for monitoring the physiological and biochemical profile of the athlete
DR Seshadri, RT Li, JE Voos, JR Rowbottom, CM Alfes, CA Zorman, ...
NPJ digital medicine 2 (1), 72, 2019
Epitaxial growth of 3C–SiC films on 4 in. diam (100) silicon wafers by atmospheric pressure chemical vapor deposition
CA Zorman, AJ Fleischman, AS Dewa, M Mehregany, C Jacob, S Nishino, ...
Journal of Applied Physics 78 (8), 5136-5138, 1995
High-temperature single-crystal 3C-SiC capacitive pressure sensor
DJ Young, J Du, CA Zorman, WH Ko
IEEE sensors Journal 4 (4), 464-470, 2004
Low voltage nanoelectromechanical switches based on silicon carbide nanowires
XL Feng, MH Matheny, CA Zorman, M Mehregany, ML Roukes
Nano letters 10 (8), 2891-2896, 2010
VHF, UHF and microwave frequency nanomechanical resonators
XMH Huang, XL Feng, CA Zorman, M Mehregany, ML Roukes
New Journal of Physics 7 (1), 247, 2005
Fabrication and testing of bulk micromachined silicon carbide piezoresistive pressure sensors for high temperature applications
CH Wu, CA Zorman, M Mehregany
IEEE Sensors Journal 6 (2), 316-324, 2006
Silicon carbide for microelectromechanical systems
M Mehregany, CA Zorman, S Roy, AJ Fleischman, Wu C.-H., N Rajan
International materials reviews 45 (3), 85-108, 2000
In vivo deployment of mechanically adaptive nanocomposites for intracortical microelectrodes
JP Harris, AE Hess, SJ Rowan, C Weder, CA Zorman, DJ Tyler, ...
Journal of neural engineering 8 (4), 046010, 2011
Wearable sensors for monitoring the internal and external workload of the athlete
DR Seshadri, RT Li, JE Voos, JR Rowbottom, CM Alfes, CA Zorman, ...
NPJ digital medicine 2 (1), 71, 2019
Electrothermal tuning of Al–SiC nanomechanical resonators
SC Jun, XMH Huang, M Manolidis, CA Zorman, M Mehregany, J Hone
Nanotechnology 17 (5), 1506, 2006
Micro‐and nanomechanical structures for silicon carbide MEMS and NEMS
CA Zorman, RJ Parro
physica status solidi (b) 245 (7), 1404-1424, 2008
Examination of bulge test for determining residual stress, Young’s modulus, and Poisson’s ratio of 3C-SiC thin films
JS Mitchell, CA Zorman, T Kicher, S Roy, M Mehregany
Journal of Aerospace Engineering 16 (2), 46-54, 2003
Development of a stimuli-responsive polymer nanocomposite toward biologically optimized, MEMS-based neural probes
AE Hess, JR Capadona, K Shanmuganathan, L Hsu, SJ Rowan, C Weder, ...
Journal of Micromechanics and Microengineering 21 (5), 054009, 2011
Fabrication and testing of micromachined silicon carbide and nickel fuel atomizers for gas turbine engines
N Rajan, M Mehregany, CA Zorman, S Stefanescu, TP Kicher
Journal of microelectromechanical systems 8 (3), 251-257, 1999
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