1. Wenming Li, Siyan Yang, Yongping Chen*, Chen Li and Zuankai Wang*, Tesla valves and capillary structures-activated thermal regulator, Nature Communications, 14, 3996 (2023). https://doi.org/10.1038/s41467-023-39289-5
2. Qun Han, Zhaoxuan Liu, Chengbin Zhang, Wenming Li*, Enhanced single-phase and flow boiling heat transfer performance in saw-tooth copper microchannels with high L/Dh ratio, Applied Thermal Engineering, 修改中, 2023
3. Zhaoxuan Liu, Qun Han, Chengbin Zhang and Wenming Li*, Experimental investigation of two-phase heat transfer in saw-tooth copper microchannels, International Journal of Thermal Sciences, 修改中,2023
4. Qun Han, Zhaoxuan Liu, Yongping Chen, Wenming Li*, Enhance flow boiling in Tesla-type microchannels by inhibiting two-phase backflow, International Journal of Heat and Mass Transfer,214 (2023), 124471(影响因子:5.58)
5. 陈天华,刘兆轩,韩群,张程宾,李文明*. 喷雾冷却换热强化研究进展及影响因素[J]. 化工学报, 2023,DOI: 10.11949/0438-1157.20230151
6. 刘兆轩,张程宾,韩群,姜海涛, 李文明*, 锯齿型微通道流动与传热特性数值模拟, 化工进展,2022-2321
7. Daniel Lorenzini, Wenming Li, Yogendra Joshi, Flow Boiling in Flexible Polymer Microgaps for Embedded Cooling in High-Power Applications, Journal of Heat Mass Transfer. Apr 2023, 145(4): 041603
8. Qun Han, Zhaoxuan Liu, Wenming Li*, Enhanced thermal performance by spatial chaotic mixing in a saw-like microchannel, International Journal of Thermal Sciences, Volume 186, April 2023, 108148 (JCR 2 区)
9. Wenming Li*, Kai Luo, Chen Li, and Yogendra Joshi*, “A remarkable CHF of 345W/cm2 is achieved in a wicked-microchannel using HFE-7100”, International Journal of Heat and Mass Transfer,187 (2022), 122527(影响因子:5.58)
10. Wenming Li, Chen Li, Zuankai Wang, and Yongping Chen*, “Enhanced Flow Boiling in Microchannels integrated with supercapillary pinfin fences”, International Journal of Heat and Mass Transfer,183 (2022), 122185(影响因子:5.58)
11. Guanghan Huang, Wenming Li, Guisheng Zhong, Ahmed A. Abdulshaheed, Kai Luo, and Chen Li*, “Optimizing L-Shaped Heat Pipes with Partially-hybrid Mesh-Groove Wicking Structures”, International Journal of Heat and Mass Transfer,170 (2021), 120926(影响因子:5.58)
12. Wenming Li*, Fanghao Yang, Xiaopeng Qu, and Chen Li*, Nanofence-activated Two-Phase Boundary Layer to Enhance Flow Boiling in Microchannels, Langmuir, 2020, 36, 51, 15536–15542 (影响因子:3.7)
13. Congcong Ren, Wenming Li, Jiaxuan Ma, Guanghan Huang, Chen Li, “Flow boiling in microchannels enhanced by parallel microgrooves fabricated on the bottom surfaces”, International Journal of Heat and Mass Transfer, 166 (2020), 120756(影响因子:5.58)
14. Wenming Li*, Jiaxuan Ma, and Chen Li*, “Enhanced flow boiling in microchannels by incorporating multiple micro-nozzles and micro-pinfin fences”, International Journal of Heat and Mass Transfer, 165 (2021) 120695 (影响因子:5.58)
15. Wenming Li and Yogendra Joshi*, “Capillary-assisted evaporation/boiling in PDMS microchannel integrated with wick microstructure”, Langmuir, 2020(影响因子:3.7)
16. Huang, Guanghan, Li, Wenming, Ma, Jiaxuan, Ren, Congcong, and Li, Chen*, “High frequency alternating nucleate boiling of water enabled by microslot arrays in microchannels”, International Journal of Heat and Mass Transfer, 150 (2020), p. 119271. (影响因子:5.58)
17. Wenming Li, Zuankai Wang*, Fanghao Yang, Tamanna Alam, Jiang, M., Qu, Xiaopeng, Kong, F., Khan, A. S., Liu, Minjie, Alwazzan, Mohammad, Tong, Yan, and Li, Chen*, "Supercapillary Architecture-Activated Two-Phase Boundary Layer Structures for Highly Stable and Efficient Flow Boiling Heat Transfer," Advanced Materials, p. 1905117 (2019) ( 被选为内插页).(影响因子:27.4)
18. Michael M. Binkley, Minyang Cui, Wenming Li, S. Tan, M. Y. Berezin, and John Mark Meacham*, “Design, modeling, and experimental validation of an acoustofluidic platform for nanoscale molecular synthesis and detection”, Physics of Fluids,31, 082007 (2019) (影响因子:3.5)
19. Peng, Benli, Huang, Guanghan, Wang, Pengtao, Li, Wenming, Chang, Wei, Ma, Jiaxuan, and Li*, Chen, 2019, "Effects of thermal conductivity and density on phase change materials-based thermal energy storage systems," Energy, 172, pp. 580-591.(影响因子:5.7)
20. Jiaxuan Ma, Wenming Li, Congcong Ren, Jamil Khan and Chen Li*, Realizing highly coordinated, rapid, and sustainable nucleate boiling in microchannels on HFE-7100, International Journal of Heat and Mass Transfer, 133 (2019) 1219-1229. (影响因子:5.58)
21. Wenming Li, Jiaxuan Ma, Tamanna Alam, Fanghao Yang, Jamil Khan, and Chen Li*, “Flow Boiling of HFE-7100 in Silicon Microchannels Integrated with Multiple Micro-nozzles and Reentry Micro-cavities”, International Journal of Heat and Mass Transfer, 123 (2018) 354-366. (影响因子:5.58)
22. Tamanna Alam, Wenming Li, Wei Chang, Fanghao Yang, Jamil Khan, Chen Li*, “A comparative study of flow boiling HFE-7100 in silicon nanowire and plainwall microchannels”, International Journal of Heat and Mass Transfer, 124 (2018) 829-840. (影响因子:5.58)
23. Wenming Li, Fanghao Yang, Tamanna Alam, Xiaopeng Qu, Benli Peng, Jamil Khan, Chen Li*, “Enhanced Flow Boiling in Microchannels using Auxiliary Channels and Multiple Micronozzles Part Ⅰ: Characterizations of flow boiling heat transfer”, International Journal of Heat and Mass Transfer, 2018 (116), 208-217.(影响因子:5.58)
24. Wenming Li, Tamanna Alam, Fanghao Yang, Xiaopeng Qu, Benli Peng, Chen Li*, Enhanced “Flow Boiling in Microchannels using Auxiliary Channels and Multiple Micronozzles Part Ⅱ: Enhancement of CHF and Reduction of Pressure drop”, International Journal of Heat and Mass Transfer, 2017 (115), 264-272.(影响因子:5.58)
25. Wenming Li, Xiaopeng Qu, Tamanna Alam, Fanghao Yang, Wei Chang, Jamil Khan and Chen Li*, “Enhanced Flow Boiling in Microchannels through Integrating Multiple Micro-nozzles and Reentry Microcavities”, Applied Physics Letters, 110 (1), p. 014104, 2017. (影响因子:3.6)
26. F. Yang, Wenming Li, X. Dai and C. Li*, Flow Boiling Heat Transfer of HFE-7000 in Nanowire-coated Microchannels, Applied Thermal Engineering, 2016 (93), 260-268 (影响因子:5.3)
27. Tamanna Alam, A.S. Khan, Wenming Li, Fanghao Yang, Yan Tong, Jamil Khan and Chen Li*, “Transient Force Analysis and Bubble Dynamics during Flow Boiling in Silicon Nanowire Microchannels,” International Journal of Heat and Mass Transfer, 2016 (101), 937-947. (影响因子:5.58)
28. Tamanna Alam, Wenming Li, Fanghao Yang, Wei Chang, Jing Li, Zuankai Wang, Jamil Khan and Chen Li*, “Force Analysis and Bubble Dynamics during Flow Boiling in Silicon Nanowire Microchannels,” International Journal of Heat and Mass Transfer, 2016 (101), 915-926. (影响因子:5.58)
29. Wenming Li, Fanghao Yang, Tamanna Alam, Jamil Khan and Chen Li*, “Experimental and theoretical studies of critical heat flux of flow boiling in microchannels with microbubble-excited high-frequency two-phase oscillations”, International Journal of Heat and Mass Transfer, 88 (2015) 368-378. (影响因子:5.58)
29. Fanghao Yang, Mohammad Alwazzan, Wenming Li, Chen Li*, “Single and Two-phase Thermal Transport in Micro-channels with Embedded Chaotic Mixers”, Journal of Microelectromechanical Systems, 23 (6), 2014, 1346-1358. (影响因子:2.9)
1. Wenming Li, Tamanna Alam, Fanghao Yang, Chen Li, Enhanced Flow Boiling in Microchannels using Auxiliary Channels and Multiple Micronozzles, ASME 2016 5th Micro/Nanoscale Heat and Mass Transfer International Conference, January 3-6, 2016, Biopolis, Singapore.
2. Wenming Li, Fanghao Yang, Tamanna Alam, Congcong Ren, A numerical parametric study of flow and heat transfer in circular and zig-zag square microchannel heat sinks, ASME 2016 SHTC Summer Heat Transfer Conference, July 10-14, 2016, Washington, DC
3. Fanghao Yang, Wenming Li, and Chen Li, “Integrate Monolithic Nanostructures to Enhance HFE-7000 Two-Phase Microchannel Heat Sink,” Proceedings of the ASME 2015 International Technical Conference and Exhibition on Packaging and Integration of Electronic and Photonic Microsystems and ASME 2015 12th International Conference on Nanochannels, Microchannels, and Minichannels, InterPACKICNMM2015, San Francisco, CA, USA, July 6-9, 2015.
4. Fanghao Yang, Wenming Li, and Chen Li, “Enhanced Flow Boiling of HFE-7000 in Nano-engineered Microchannels,” the 1sth Heat Transfer Symposium, Beijing, China, May 6-9, 2014.
会议报告/海报
1. Wenming Li, Fanghao Yang and Chen Li, “Experimental and Theoretical Studies of Critical Heat Flux of Flow Boiling in Microchannels with Self-sustained High-frequency Two-phase Oscillations”, 9th International Conference on Boiling and Condensation Heat Transfer, April 2015, Boulder, CO, USA.
2. Wenming Li, Xiaopeng Qu, Tamanna Alam, Fanghao Yang, Wei Chang and Chen Li, Enhanced Flow Boiling in Microchannels through Integrating Multiple Micro-nozzles and Reentry Microcavities, ASME 2016 SHTC Summer Heat Transfer Conference, July 10-14, 2016, Washington, DC
3. Wenming Li, Tamanna Alam, Fanghao Yang, Wei Chang, Jamil Khan and Chen Li, Enhanced flow boiling with HFE7100 in microchannels coupling multiple nozzles with reentry cavities, GRC: Micro & Nanoscale Phase Change Heat Transfer, January 08-13, 2017, Galveston, TX
4. Wenming Li, Tamanna Alam, Wei Chang, Jamil Khan and Chen Li, Enhanced flow boiling with HFE7100 in microchannels coupling multiple nozzles with reentry cavities, ASME 2017 Summer Heat Transfer Conference, July 09-12, 2017, Bellevue, WA
5. Wenming Li, Jiaxuan Ma and Chen Li, Flow boiling phenomena in bridged microchannels, ASME 2017 15th International Conference on Nanochannels, Microchannels and Minichannels, August 27-30, 2017, Cambridge, MA
专利
1. Wenming Li and Yogendra Joshi, “Wick-assisted evaporation for EV internal permanent magnet (IPM) motor drive cooling”, provisional patent filing by the Georgia Tech Research Corporation (GTRC) on May 1, 2020
2. 陈永平,李文明,韩群,一种特斯拉型微通道流动沸腾换热器及其制备方法,发明专利-202211209815.1,2023