Richard E Cavicchi
Richard E Cavicchi
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Zitiert von
Zitiert von
Tin oxide gas sensor fabricated using CMOS micro-hotplates and in-situ processing
JS Suehle, RE Cavicchi, M Gaitan, S Semancik
IEEE Electron Device Letters 14 (3), 118-120, 1993
Microhotplate platforms for chemical sensor research
S Semancik, RE Cavicchi, MC Wheeler, JE Tiffany, GE Poirier, RM Walton, ...
Sensors and Actuators B: Chemical 77 (1-2), 579-591, 2001
Surface state trapping models for SnO2-based microhotplate sensors
J Ding, TJ McAvoy, RE Cavicchi, S Semancik
Sensors and Actuators B: Chemical 77 (3), 597-613, 2001
A monolithic CMOS microhotplate-based gas sensor system
MY Afridi, JS Suehle, ME Zaghloul, DW Berning, AR Hefner, RE Cavicchi, ...
IEEE Sensors Journal 2 (6), 644-655, 2002
Anti-HER2 IgY antibody-functionalized single-walled carbon nanotubes for detection and selective destruction of breast cancer cells
Y Xiao, X Gao, O Taratula, S Treado, A Urbas, RD Holbrook, RE Cavicchi, ...
BMC cancer 9 (1), 1-11, 2009
Optimization of temperature programmed sensing for gas identification using micro-hotplate sensors
TA Kunt, TJ McAvoy, RE Cavicchi, S Semancik
Sensors and Actuators B: Chemical 53 (1-2), 24-43, 1998
Kinetically controlled chemical sensing using micromachined structures
S Semancik, R Cavicchi
Accounts of Chemical Research 31 (5), 279-288, 1998
Coulomb suppression of tunneling rate from small metal particles
RE Cavicchi, RH Silsbee
Physical review letters 52 (16), 1453, 1984
Optimized temperature-pulse sequences for the enhancement of chemically specific response patterns from micro-hotplate gas sensors
RE Cavicchi, JS Suehle, KG Kreider, M Gaitan, P Chaparala
Sensors and Actuators B: Chemical 33 (1-3), 142-146, 1996
Fast temperature programmed sensing for micro-hotplate gas sensors
RE Cavicchi, JS Suehle, KG Kreider, M Gaitan, P Chaparala
IEEE Electron Device Letters 16 (6), 286-288, 1995
Application of microsubstrates for materials processing
R Cavicchi, S Semancik, JS Suehle, M Gaitan
US Patent 5,356,756, 1994
Temperature-controlled, micromachined arrays for chemical sensor fabrication and operation
S Semancik, RE Cavicchi, M Gaitan, JS Suehle
US Patent 5,345,213, 1994
The growth of thin, epitaxial SnO2 films for gas sensing applications
S Semancik, RE Cavicchi
Thin Solid Films 206 (1-2), 81-87, 1991
Nanoparticle engineering and control of tin oxide microstructures for chemical microsensor applications
B Panchapakesan, DL DeVoe, MR Widmaier, R Cavicchi, S Semancik
Nanotechnology 12 (3), 336, 2001
Admittance spectroscopy measurement of band offsets in strained layers of InxGa1−xAs grown on InP
RE Cavicchi, DV Lang, D Gershoni, AM Sergent, JM Vandenberg, ...
Applied physics letters 54 (8), 739-741, 1989
A generic process of growing aligned carbon nanotube arrays on metals and metal alloys
PM Parthangal, RE Cavicchi, MR Zachariah
Nanotechnology 18 (18), 185605, 2007
Growth of SnO2 films on micromachined hotplates
RE Cavicchi, JS Suehle, KG Kreider, BL Shomaker, JA Small, M Gaitan, ...
Applied Physics Letters 66 (7), 812-814, 1995
A comparative study of signal processing techniques for clustering microsensor data (a first step towards an artificial nose)
L Ratton, T Kunt, T McAvoy, T Fuja, R Cavicchi, S Semancik
Sensors and Actuators B: Chemical 41 (1-3), 105-120, 1997
Spin-on nanoparticle tin oxide for microhotplate gas sensors
RE Cavicchi, RM Walton, M Aquino-Class, JD Allen, B Panchapakesan
Sensors and actuators B: chemical 77 (1-2), 145-154, 2001
Effect of surface wettability on fast transient microboiling behavior
OC Thomas, RE Cavicchi, MJ Tarlov
Langmuir 19 (15), 6168-6177, 2003
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