1
Chung-Te Huang, Ching-Wen Lo, and Ming-Chang Lu, Reducing Contact Time of Droplets Impacting Superheated Hydrophobic Surfaces, Small, 2106704, 2022. (SCI IF: 13.281)
2
Chung-Te Huang, Meng-Shiue Lee, Ching-Wen Lo, Wensyang Hsu, and Ming-Chang Lu "Wide Temperature Antifouling Characteristic of a Double Re-Entrant Pillar Array Surface", International Journal of Heat and Mass Transfer, 175, 121178, 2021. (SCI IF: 5.584)
3
Ching-Wen Lo, Jia-Xiong Li, and Ming-Chang Lu "Frosting and Defrosting on the Hydrophilic Nylon-6 Nanofiber Membrane–Coated Surfaces", Applied Thermal Engineering, 184, 116300, 2021. (SCI IF: 5.925)
4
Venkataraman Sahoo, Ching-Wen Lo and Ming-Chang Lu "Leidenfrost suppression and contact time reduction of a drop impacting on silicon nanowire array-coated surfaces", International Journal of Heat and Mass Transfer, 148, 118980, 2020. (SCI IF: 5.584)
5
Ching-Wen Lo, Yu-Cheng Chu, Ming-Han Yen, and Ming-Chang Lu, Enhancing Condensation Heat Transfer on Three-Dimensional Hybrid Surfaces, Joule, 3, 2806-2823, 2019. (SCI IF: 41.248)
6
Yinxiao Li, Haown Chen, Siyang Xiao, Mohammad Amin Alibakhshi, Ching-Wen Lo, Ming-Chang Lu, and Chuanhua Duan, Ultrafast Diameter-Dependent Water Evaporation from Nanopores, ACS Nano, 13, pp. 3363-3372, 2019. (SCI IF: 15.881)
7
Venkataraman Sahoo, Chu-Yao Chou, Ching-Wen Lo and Ming-Chang Lu, Elongated Bouncing and Reduced Contact Time of a Drop in the Janus State, Langmuir, 34, pp. 10874-10879, 2018 (SCI IF: 3.882)
8
Ming-Chang Lu, Chien-Chang Lin, Ching-Wen Lo, Cheng-Wei Huang, and Chi-Chuan Wang, Superhydrophobic Si Nanowires for Enhanced Condensation Heat Transfer, International Journal of Heat and Mass Transfer, 111, pp. 614-623, 2017. (SCI IF: 5.584)
9
Ching-Wen Lo, Venkataraman Sahoo and Ming-Chang Lu, Control of Ice Formation, ACS Nano, 11, pp. 2665-2674, 2017. (SCI IF : 15.881) (Featured by X-MOL, Nanowerk and Phys.org)
10
Ching-Wen Lo, Chi-Chuan Wang and Ming-Chang Lu, Scale Effect on Dropwise Condensation on Superhydrophobic Surfaces, ACS Applied Materials & Interfaces, 6, 16, pp. 14353–14359, 2014. (SCI IF: 9.229)
11
Ching-Wen Lo, Chi-Chuan Wang and Ming-Chang Lu, Spatial Control of Heterogeneous Nucleation on the Superhydrophobic Nanowire Array, Advanced Functional Materials, 24, 9, pp. 1211-1217, 2014. (SCI IF: 18.808)
1
(Invited) Ching-Wen Lo*, “Spatial Control of Frost Formation on V-shaped Microgrooves Surfaces” 7th Micro & Nanoscale Heat Transfer and Energy Workshop (MNHTE2020), Taiwan, October 23, 2020.
2
(Invited) Ching-Wen Lo*, “Frosting and Defrosting on Nylon 6 Nanofiber Membrane–Coated Surfaces” The 1st Asia-Pacific Thermofluid Science and Engineering Conference, Taiwan, October 31 to November 2, 2019.
3
Ching-Wen Lo*, Yu-Cheng Chu, Ming-Han Yan, and Ming-Chang Lu, “Enhanced Condensation Heat Transfer on the Three-dimensional Hybrid Surfaces” In Proceedings of the ASME International Mechanical Engineering Congress & Exposition, Salty Lake, USA, November 9, 2019.
4
Chu-Yao Chou*, Venkataraman Sahoo, Ching-Wen Lo and Ming-Chang Lu, “Reduced Contact Time of a Drop in the Janus State”, In Proceedings of the ASME International Mechanical Engineering Congress & Exposition, Montreal, Pittsburgh, 2018.
5
Ching-Wen Lo, Venkataraman Sahoo and Ming-Chang Lu, Control of Ice Nucleation, In Proceedings of the ASME International Mechanical Engineering Congress & Exposition, Phoenix, USA, 2016.
6
Venkataraman Sahoo, Ching-Wen Lo, Chu-Yao Chou, and Ming-Chang Lu, Leidenfrost Effect on Hybid Surfaces, In Proceedings of the ASME Micro/Nanoscale Heat & Mass Transfer, Singapore, 2016.
7
Ching-Wen Lo, Chi-Chuan Wang, Ming-Chang Lu, Scale Effect on Dropwise Condensationon Superhydrophobic Surfaces, In Proceedings of the ASME International Mechanical Engineering Congress & Exposition, Montreal, Canada, 2014.
8
Ching-Wen Lo, Chi-Chuan Wang, Ming-Chang Lu, Enhancing Dropwise Condensation Using Silicon Nanowire Array-coated surface with Two-tier Roughness, In Proceedings of the ASME Micro/Nanoscale Heat & Mass Transfer, Hong Kong, China, 2013.
