|Radiative heat transfer in the extreme near field|
K Kim, B Song, V Fernández-Hurtado, W Lee, W Jeong, L Cui, ...
Nature 528 (7582), 387-391, 2015
|Heat dissipation in atomic-scale junctions|
W Lee, K Kim, W Jeong, LA Zotti, F Pauly, JC Cuevas, P Reddy
Nature 498 (7453), 209-212, 2013
|Electrostatic control of thermoelectricity in molecular junctions|
Y Kim, W Jeong, K Kim, W Lee, P Reddy
Nature nanotechnology 9 (11), 881-885, 2014
|Ultra-High Vacuum Scanning Thermal Microscopy for Nanometer Resolution Quantitative Thermometry|
K Kim, W Jeong, W Lee, P Reddy
ACS nano 6 (5), 4248-4257, 2012
|Quantized thermal transport in single-atom junctions|
L Cui, W Jeong, S Hur, M Matt, JC Klöckner, F Pauly, P Nielaba, ...
Science 355 (6330), 1192-1195, 2017
|Study of radiative heat transfer in Ĺngström-and nanometre-sized gaps|
L Cui, W Jeong, V Fernández-Hurtado, J Feist, FJ García-Vidal, ...
Nature Communications 8, 2017
|Heat dissipation and its relation to thermopower in single-molecule junctions|
LA Zotti, M Bürkle, F Pauly, W Lee, K Kim, W Jeong, Y Asai, P Reddy, ...
New Journal of Physics 16 (1), 015004, 2014
|Characterization of nanoscale temperature fields during electromigration of nanowires|
W Jeong, K Kim, Y Kim, W Lee, P Reddy
Scientific reports 4, 4975, 2014
|Quantification of thermal and contact resistances of scanning thermal probes|
K Kim, W Jeong, W Lee, S Sadat, D Thompson, E Meyhofer, P Reddy
Applied Physics Letters 105 (20), 203107, 2014
|A platform to parallelize planar surfaces and control their spatial separation with nanometer resolution|
Y Ganjeh, B Song, K Pagadala, K Kim, S Sadat, W Jeong, K Kurabayashi, ...
Review of Scientific Instruments 83 (10), 105101, 2012
|Scanning Probe Microscopy for Thermal Transport Measurements|
W Jeong, S Hur, E Meyhofer, P Reddy
Nanoscale and Microscale Thermophysical Engineering 19 (4), 279-302, 2015
|Thermoelectricity in Molecular Junctions|
S Majumdar, WH Jeong, PS Reddy, JA Malen
Handbook of Single-Molecule Electronics, 299-339, 2015
|Experimentally Probing the Effect of Electronic Structure on the Thermoelectric Properties of Molecular Junctions.|