Pengtao Wang
Cited by
Cited by
Effects of particle surface charge, species, concentration, and dispersion method on the thermal conductivity of nanofluids
R Gowda, H Sun, P Wang, M Charmchi, F Gao, Z Gu, B Budhlall
Advances in Mechanical Engineering 2, 807610, 2010
An ultrasensitive quartz crystal microbalance-micropillars based sensor for humidity detection
P Wang, J Su, CF Su, W Dai, G Cernigliaro, H Sun
Journal of Applied Physics 115 (22), 224501, 2014
Ultrasensitive quartz crystal microbalance enabled by micropillar structure
P Wang, J Su, W Dai, G Cernigliaro, H Sun
Applied Physics Letters 104 (4), 043504, 2014
High performance copper-water heat pipes with nanoengineered evaporator sections
AA Abdulshaheed, P Wang, G Huang, C Li
International Journal of Heat and Mass Transfer 133, 474-486, 2019
Detection of liquid penetration of a micropillar surface using the quartz crystal microbalance
P Wang, J Su, M Shen, M Ruths, H Sun
Langmuir 33 (2), 638-644, 2017
Effects of thermal conductivity and density on phase change materials-based thermal energy storage systems
B Peng, G Huang, P Wang, W Li, W Chang, J Ma, C Li
Energy 172, 580-591, 2019
Thermal characterisation of micro flat aluminium heat pipe arrays by varying working fluid and inclination angle
G Huang, Y Tang, P Wang, L Lu, W Yuan
Applied Sciences 8 (7), 1052, 2018
Decoupling the influence of surface structure and intrinsic wettability on boiling heat transfer
X Dai, P Wang, F Yang, X Li, C Li
Applied Physics Letters 112 (25), 253901, 2018
Numerical simulation and experimental study of resonance characteristics of QCM-P devices operating in liquid and their application in biological detection
P Wang, J Su, L Gong, M Shen, M Ruths, H Sun
Sensors and Actuators B: Chemical 220, 1320-1327, 2015
Characterizing corrosion properties of graphene barrier layers deposited on polycrystalline metals
W Chang, P Wang, Y Zhao, C Ren, BN Popov, C Li
Surface and Coatings Technology 398, 126077, 2020
Effect of wetting states on frequency response of a micropillar-based quartz crystal microbalance
J Su, H Esmaeilzadeh, P Wang, S Ji, M Inalpolat, M Charmchi, H Sun
Sensors and Actuators A: Physical 286, 115-122, 2019
Sweating-boosted air cooling using nanoscale CuO wick structures
P Wang, R Dawas, M Alwazzan, W Chang, J Khan, C Li
International Journal of Heat and Mass Transfer 111, 817-826, 2017
Modeling of droplet-based processing for the production of high-performance particulate materials using the level set method
P Wang, H Sun, PY Wong, H Fukuda, T Ando
Numerical Heat Transfer, Part A: Applications 61 (6), 401-416, 2012
The electric field effect on the sensitivity of tin oxide gas sensors on nanostructured substrates at low temperature
H Ren, H Huo, P Wang, C Wang, S Liu, M Shen, H Sun, M Ruths
International Journal of Smart and Nano Materials 5 (4), 257-269, 2014
周少伟, 姜任秋, 宋福元, 张鹏, 王朋涛, 蔡洁
化工學報 57 (7), 1548-1552, 2006
Thermal performance of an absorption-assisted two-stage ejector air-to-water heat pump
P Wang, H Ma, J Spitzenberger, A Abu-Heiba, K Nawaz
Energy Conversion and Management 230, 113761, 2021
周少伟, 姜任秋, 宋福元, 张鹏, 王朋涛, 陈跃进, 高超
机械工程学报 43 (12), 229-234, 2007
Condensation heat transfer on nickel tubes: The role of atomic layer deposition of nickel oxide
M Alwazzan, K Egab, P Wang, Z Shang, X Liang, C Li
International Journal of Heat and Mass Transfer 133, 487-493, 2019
Modeling of micro/nano particle separation in microchannels with field-flow fractionation
M Song, H Sun, M Charmchi, P Wang, Z Zhang, M Faghri
Microsystem technologies 16 (6), 947-954, 2010
王朋涛, 姜任秋, 宋福元, 张鹏, 周少伟, 陈跃进
低温与超导 34 (4), 263-267, 2006
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