二、主要學歷

三、現職及與專長相關之經歷

四、專長

• 電子控制
• GPU叢集計算
• 系統故障診斷

五、獎勵

六、專利

七、證照

• Certiport Inc. IC3 電腦硬體、軟件、網路知識與技巧。
• Dassault Systemes SolidWorks Associate-Mechanical Design，C-TM7HZPVEYZ

八、科技部(國科會)及政府相關單位計畫

九、競賽或展演

十、研究成果目錄

(A) 期刊論文

1. Yen, T. H., & Chen, Y. L. (2022). Analysis of Gas Nanoclusters in Water Using All-Atom Molecular Dynamics. Langmuir, 38(43), 13195-13205. (SCI, Impact Factor=4.331)
2. Yen, T. H., Lin, C. H., & Chen, Y. L. (2021). Effects of gas adsorption and surface conditions on interfacial nanobubbles. Langmuir, 37(8), 2759-2770. (SCI, Impact Factor=4.331)
3. Yen, T. H. (2020). Influence of gas aggregation on water-solid interface: molecular simulation. Molecular Simulation, 46(17), 1373-1382. (SCI, Impact Factor=2.346)
4. Chen, Y. X., Chen, Y. L., & Yen, T. H. (2018). Investigating interfacial effects on surface nanobubbles without pinning using molecular dynamics simulation. Langmuir, 34(50), 15360-15369. (SCI, Impact Factor =3.882)
5. Yen, T. H. (2017). Investigating the effects of wettability and gaseous nanobubbles on roughened wall–fluid interface using molecular dynamics simulation. Molecular Simulation, 43(1), 1-12. (SCI, Impact Factor=1.678)
6. Yen, T. H., & Soong, C. Y. (2016). Hybrid Cassie-Wenzel model for droplets on surfaces with nanoscale roughness. Physical Review E, 93(2), 022805. (SCI, IF: 2.28).
7. Yen, T. H., & Soong, C. Y. (2016). Effective boundary slip and wetting characteristics of water on substrates with effects of surface morphology. Molecular Physics, 114(6), 797-809. (SCI, Impact Factor= 1.837)
8. Yen T. H. (2015). Effects of wettability and interfacial nanobubbles on flow through structured nanochannels: an investigation of molecular dynamics. Molecular Physics, Vol. 113, No. 23 pp. 3783-3795 (SCI, IF: 1.72)
9. Yen T. H. (2014). Molecular dynamics simulation of fluid containing gas in hydrophilic rough wall nanochannels. Microfluidics and Nanofluidics, 17(2), 325-339. (SCI, IF:2.53).
10. Yen T. H. (2012). Investigation the Effects of Perpendicular Electric Field and Surface Morphology on Nanoscale Droplet by using Molecular Dynamics Simulation. Molecular Simulation, 38(6), 509-517. (SCI, IF:1.13).
11. Yen T. H. (2011). Wetting Characteristics of Nanoscale Water Droplet on Silicon Substrates with Effects of Surface Morphology. Molecular Simulation, 37(9), 766-778. (SCI, IF:1.13).
12. Yen, T. H., Soong, C. Y*. and Tzeng, P. Y., (2009). Study of nanoscale pressure-driven electrokinetic flow with effects of wall lattice plane. Journal of Mechanics, 25(4) 279-294. (SCI, 124/135, Mehanics).
13. Tzeng, P. Y., Soong, C. Y., Liu M. H. and Yen, T. H. (2008). Atomistic Simulation of Rarified Gas Natural Convection in a Finite Enclosure Using a Novel Wall-Fluid Molecular Collision Rule for Adiabatic Solid-Walls. International Journal of Heat and Mass Transfer, Vol. 51, pp. 445-456, 2008. (SCI, IF:2.38).
14. Yen, T. H., Soong, C. Y*., and Tzeng, P. Y. (2007). Hybrid Molecular Dynamics–Continuum Simulation for Nano/Mesoscale Channel Flows. Microfluidics & Nanofluidics, Vol. 3, pp. 665-675. (SCI, IF:2.53).
15. Soong, C. Y.*, Yen, T. H. and Tzeng, P. Y. (2007). Molecular dynamics simulation of nanochannel flows with effects of wall lattice-fluid interactions. Physical Review E, Vol. 76, pp. 036303, 2007. (SCI, IF:2.29)

(B) 研討會論文

1. Yen, T. H., Jin, S. Y., Tan, T. W. & Mao, S. W., “The concentration of particulate organic carbon investigation using one-dimensional vertical computational fluid dynamic coupling biochemical model”, 2025 IEEE International Symposium on Underwater Technology, March 2-5, 2025, Taipei.
2. Yen, T. H., “Investigating Gas Cluster in Water without Pinning Ions Using Molecular Dynamics Simulation”(online oral presentation) The International Conference on Nanobubbles, Nanodroplets and their Applications (NANOBUBBLE 2022) Sep, 18-21, 2022, Magdeburg, Germany.
3. Yen, T. H., Chen, Y. X. and Chen,Y. L., “Investigate the Effects of Gas Adsorption on Interfacial Nanobubble by using Molecular Dynamics Simulation” The 14th International Conference on Flow Dynamics (ICFD) Nov, 2-4, 2017, Sandia, Japan.
4. Yen, T. H. and Soong, C. Y., “Apparent slip and wetting characteristics on substrates with nanoscale surface morphology,” 第二十二屆全國計算流體力學學術研討會(CFD-22), August 2015.  (大會論文獎佳作)
5. Yen, T. H., Soong, C. Y., “Surface Effect on Gas Molecular Properties of Interfacial Nanobabble” The 12th International Conference on Flow Dynamics (ICFD) Oct, 27-29, 2015, Sandia, Japan.
6. Yen, T. H., Soong, C. Y., “Numerical Visualization of Nanobubble Behaviors at a Roughened Solid-Liquid Interface under Influence of Surface Charge Density”, “Surface Effect on Gas Molecular Properties of Interfacial Nanobabble” The 12th International Conference on Flow Dynamics (ICFD) Oct, 27-29, 2015, Sandia, Japan.
7. Yen, T. H. and Lee, J. C.,“Influence of gaseous nanobubble and wettability on structured surface of nanochannels,” 第二十一屆全國計算流體力學學術研討會(CFD-21), August 2014.  (大會論文獎佳作)
8. Yen T. H., “Effects of wettability on gas-water flow over the roughness nanochannels” The 16th International Symposium on Flow Visualization (ISFV) Jun, 25-28, 2014, Okinawa, Japan.
9. Yen,T. H., “Effects of gas molecules and surface morphology on hydrostatic and hydrodynamic properties of water fluid in rough nanochannels,” The 29th International Symposium on Space Technology and Science (ISTS), Jun, 02-08, 2013, Nagoya-Akchi, Japan.