Jay Gaillard
Jay Gaillard
Fellow Scientist, Savannah River National Laboratory
Verified email at
Cited by
Cited by
Carbon-nanotube-based resonant-circuit sensor for ammonia
S Chopra, A Pham, J Gaillard, A Parker, AM Rao
Applied physics letters 80 (24), 4632-4634, 2002
Sonication-assisted functionalization and solubilization of carbon nanotubes
W Huang, Y Lin, S Taylor, J Gaillard, AM Rao, YP Sun
Nano Letters 2 (3), 231-234, 2002
Photoinduced oxidation of carbon nanotubes
T Savage, S Bhattacharya, B Sadanadan, J Gaillard, TM Tritt, YP Sun, ...
Journal of Physics: Condensed Matter 15 (35), 5915, 2003
Controlled growth of Y-junction nanotubes using Ti-doped vapor catalyst
N Gothard, C Daraio, J Gaillard, R Zidan, S Jin, AM Rao
Nano Letters 4 (2), 213-217, 2004
Rational synthesis of helically coiled carbon nanowires and nanotubes through the use of tin and indium catalysts
W Wang, K Yang, J Gaillard, PR Bandaru, AM Rao
Advanced Materials 20 (1), 179-182, 2008
Mechanical properties of chemical vapor deposition-grown multiwalled carbon nanotubes
J Gaillard, M Skove, AM Rao
Applied Physics Letters 86 (23), 2005
A review on upgrading and viscosity reduction of heavy oil and bitumen by underground catalytic cracking
F Zhao, Y Liu, N Lu, T Xu, G Zhu, K Wang
Energy Reports 7, 4249-4272, 2021
Tuning electrical and thermal connectivity in multiwalled carbon nanotube buckypaper
K Yang, J He, P Puneet, Z Su, MJ Skove, J Gaillard, TM Tritt, AM Rao
Journal of Physics: Condensed Matter 22 (33), 334215, 2010
Synthesis of branched carbon nanotubes
AM Rao, NW Gothard, JB Gaillard
US Patent 7,144,563, 2006
Using electric actuation and detection of oscillations in microcantilevers for pressure measurements
G Keskar, B Elliott, J Gaillard, MJ Skove, AM Rao
Sensors and Actuators A: Physical 147 (1), 203-209, 2008
Electrical detection of oscillations in microcantilevers and nanocantilevers
J Gaillard, MJ Skove, R Ciocan, AM Rao
Review of scientific instruments 77 (7), 2006
Determination of the bending modulus of an individual multiwall carbon nanotube using an electric harmonic detection of resonance technique
R Ciocan, J Gaillard, MJ Skove, AM Rao
Nano Letters 5 (12), 2389-2393, 2005
Synthesis and thermoelectric power of nitrogen-doped carbon nanotubes
B Sadanadan, T Savage, S Bhattacharya, T Tritt, A Cassell, M Meyyappan, ...
Journal of Nanoscience and Nanotechnology 3 (1-2), 99-103, 2003
Three-way electrical gating characteristics of metallic Y-junction carbon nanotubes
J Park, C Daraio, S Jin, PR Bandaru, J Gaillard, AM Rao
Applied Physics Letters 88 (24), 2006
Development of RF carbon nanotube resonant circuit sensors for gas remote sensing applications
S Chopra, A Pham, J Gaillard, AM Rao
2002 IEEE MTT-S International Microwave Symposium Digest (Cat. No. 02CH37278 …, 2002
The role of γ-iron nanoparticulates in the growth of carbon nanotubes
A Khasanov, J He, J Gaillard, K Yang, AM Rao, CM Cameron, ...
Applied Physics Letters 93 (1), 2008
Method and apparatus for detecting resonance in electrostatically driven elements
J Gaillard, RM Ciocan, M Skove, AM Rao
US Patent 7,598,723, 2009
Substrate patterning by electron emission-induced displacement
JB Reppert, JB Gaillard, BC Elliott, DE Dickel, MP Mengüc, AM Rao
US Patent 7,818,816, 2010
Directed-assembly of carbon structures in a nonpolar dielectric liquid under the influence of DC-generated electric fields
L Oliveira, D Saini, JB Gaillard, R Podila, AM Rao, SM Serkiz
Carbon 93, 32-38, 2015
Active sensing in ambient conditions using an electrostatically driven silicon microcantilever
G Keskar, B Elliott, MJ Skove, J Gaillard, SM Serkiz, AM Rao
Sensors and Tranducers 91 (4), 2008
The system can't perform the operation now. Try again later.
Articles 1–20