| Thermal conductance and thermopower of an individual single-wall carbon nanotube C Yu, L Shi, Z Yao, D Li, A Majumdar Nano Letters 5 (9), 1842-1846, 2005 | 1148 | 2005 |
| Measuring thermal and thermoelectric properties of one-dimensional nanostructures using a microfabricated device L Shi, D Li, C Yu, W Jang, D Kim, Z Yao, A Majumdar ASME Journal of Heat Transfer 125, 881-888, 2003 | 958 | 2003 |
| Improved thermoelectric behavior of nanotube-filled polymer composites with poly (3, 4-ethylenedioxythiophene) poly (styrenesulfonate) D Kim, Y Kim, K Choi, JC Grunlan, C Yu ACS Nano 4 (1), 513-523, 2010 | 673 | 2010 |
| Thermoelectric behavior of segregated-network polymer nanocomposites C Yu, YS Kim, D Kim, JC Grunlan Nano Letters 8 (12), 4428-4432, 2008 | 502 | 2008 |
| Light-weight flexible carbon nanotube based organic composites with large thermoelectric power factors C Yu, K Choi, L Yin, JC Grunlan ACS Nano 5 (10), 7885-7892, 2011 | 496 | 2011 |
| Outstanding low temperature thermoelectric power factor from completely organic thin films enabled by multidimensional conjugated nanomaterials C Cho, KL Wallace, P Tzeng, JH Hsu, C Yu, JC Grunlan Advanced Energy Materials 6 (7), 1502168, 2016 | 303 | 2016 |
| Air-stable fabric thermoelectric modules made of N-and P-type carbon nanotubes C Yu, A Murali, K Choi, Y Ryu Energy & Environmental Science 5 (11), 9481-9486, 2012 | 285 | 2012 |
| Bio-MEMS: technologies and applications W Wang, SA Soper CRC press, 2006 | 278 | 2006 |
| Completely organic multilayer thin film with thermoelectric power factor rivaling inorganic tellurides. C Cho, B Stevens, JH Hsu, R Bureau, DA Hagen, O Regev, C Yu, ... Advanced Materials (Deerfield Beach, Fla.) 27 (19), 2996-3001, 2015 | 258 | 2015 |
| Flexible power fabrics made of carbon nanotubes for harvesting thermoelectricity SL Kim, K Choi, A Tazebay, C Yu ACS Nano 8 (3), 2377-2386, 2014 | 258 | 2014 |
| Organic thermoelectrics: materials preparation, performance optimization, and device integration H Wang, C Yu Joule 3 (1), 53-80, 2019 | 257 | 2019 |
| Large thermoelectric figure-of-merits from SiGe nanowires by simultaneously measuring electrical and thermal transport properties EK Lee, L Yin, Y Lee, JW Lee, SJ Lee, J Lee, SN Cha, D Whang, ... Nano Letters 12 (6), 2918-2923, 2012 | 240 | 2012 |
| Thermal contact resistance and thermal conductivity of a carbon nanofiber C Yu, S Saha, J Zhou, L Shi, AM Cassell, BA Cruden, Q Ngo, J Li ASME Journal of Heat Transfer 128, 234-239, 2006 | 224 | 2006 |
| Thermally chargeable solid‐state supercapacitor SL Kim, HT Lin, C Yu Advanced Energy Materials 6 (18), 1600546, 2016 | 220 | 2016 |
| Thermally driven large n‐type voltage responses from hybrids of carbon nanotubes and poly (3, 4‐ethylenedioxythiophene) with tetrakis (dimethylamino) ethylene H Wang, JH Hsu, SI Yi, SL Kim, K Choi, G Yang, C Yu Advanced Materials 27 (43), 6855-6861, 2015 | 212 | 2015 |
| Integration of metal oxide nanobelts with microsystems for nerve agent detection C Yu, Q Hao, S Saha, L Shi, X Kong, ZL Wang Applied Physics Letters 86 (6), 2005 | 211 | 2005 |
| A three-dimensional dielectrophoretic particle focusing channel for microcytometry applications C Yu, J Vykoukal, DM Vykoukal, JA Schwartz, L Shi, PRC Gascoyne Journal of Microelectromechanical Systems 14 (3), 480-487, 2005 | 201 | 2005 |
| Lossless hybridization between photovoltaic and thermoelectric devices KT Park, SM Shin, AS Tazebay, HD Um, JY Jung, SW Jee, MW Oh, ... Scientific reports 3 (1), 2123, 2013 | 176 | 2013 |
| Thermal conductivities of individual tin dioxide nanobelts L Shi, Q Hao, C Yu, N Mingo, X Kong, ZL Wang Applied Physics Letters 84, 2638, 2004 | 169 | 2004 |
| Scalable synthesis of bi-functional high-performance carbon nanotube sponge catalysts and electrodes with optimum C–N–Fe coordination for oxygen reduction reaction G Yang, W Choi, X Pu, C Yu Energy & Environmental Science 8 (6), 1799-1807, 2015 | 149 | 2015 |
