著作
國際期刊論文:
1. Chang, C.-C, Luo, W.-J., Lu, C.-W., Cheng, Y.-S., Tsai, B.-Y. and Lin, Z.-H. “Effects of process air conditions and switching cycle period on dehumidification performance of desiccant-coated heat exchangers,” Science and Technology For the Built Environment (formerly as HVAC&R Research), 2017, 23, 81-89. (SCI)
2. Kuan, Y.-D., Luo, W.-J., Chang, C.-C., Wellid, I., Zheng, Z.-Y. and Chen, C.-N. “Fuel concentration and operating temperature effects on critical amounts of catalysts added to the fuel channels of direct methanol fuel cell,” Digest Journal of Nanomaterials and Biostructures, 2016, 11, 1327-1341. (SCI)
3. Yeh, H.-C., Chang, C.-C. and Yang, R.-J., “Ion-size effect on electrokinetic energy conversion in nanofluidic channels,” International Journal of Green Energy, 2016, 13, 1050-1058. (SCI)
4. Kuan, Y.-D., Luo, W.-J., Chang, C.-C., Kuo, Y.-C., Cheng, G.-C. and Chen, C.-N. “Performance analysis of direct methanol fuel cells by coating different proportions of catalysts onto fuel channels,” Digest Journal of Nanomaterials and Biostructures, 2016, 11, 651-662. (SCI)
5. Yeh, H.-C., Chang, C.-C. and Yang, R.-J., “Electro-osmotic pumping and ion-concentration polarization based on conical nanopores,” Physical Review E, 2015, Vol.91, 062302. (SCI)
6. Yeh, H.-C., Wang M., Chang, C.-C., Yang, R.-J., “ Fundamentals and modeling of electrokinetic transport in nanochannels,” Israel Journal of Chemistry, 2014, Vol.54, 1533-1555. (SCI)
7. Yeh, H.-C., Chang, C.-C. and Yang, R.-J., “Reverse electrodialysis in conical-shaped nanopores: salinity gradient-driven power generation,” RSC Advances, 2014, Vol.4, 2705-2714. (SCI)
8. Chang, C.-C., Kazoe, Y., Morikawa, K., Mawatari, K., Yang, R.-J. and Kitamori, T., “Numerical simulation of proton distribution with electric double layer in extended nanospaces,” Analytical Chemistry, 2013, Vol.85, 4468-4474. (SCI)
9. Chiu, P.-H, Chang, C.-C. and Yang, R.-J., “Electrokinetic micromixing of charged and non-charged samples near nano-microchannel junction,” Microfluidics and Nanofluidics, 2013, Vol.14, 839-844. (SCI)
10. Kazoe, Y., Chang, C.-C., Mawatari, K. and Kitamori, T., “Reply to the comment to “Development of measurement technique for ion distribution in extended nanochannel by super resolution-laser induced fluorescence”,” Analytical Chemistry , 2012, Vol.84, 10855-10855. (SCI)
11. Chang, C.-C., Yang, R.-J., Wang, M., Miau, J.-J., and Lebiga, V., “Liquid flow retardation in nanospaces due to electroviscosity: Electrical double layer overlap, hydrodynamic slippage and ambient atmospheric CO2 dissolution,” Physics of Fluids, 2012, Vol.24, 072001 (23 pages). (SCI)
12. Chang, C.-C., Yeh, C.-P. and Yang, R.-J., “Ion concentration polarization near microchannel-nanochannel interfaces: effect of pH value”, Electrophoresis, 2012, Vol. 33, 758-764. (SCI)
13. Chang, C.-C.* and Yang, R.-J., “Electrokinetic energy conversion efficiency in ion-selective nanopores,” Applied Physics Letters, 2011, Vol.99, 083102 (3 pages) (SCI)
14. Chang, C.-C and Yang, R.-J., “Electrokinetic energy conversion in micro-meter length nanofluidic channels,” Microfluidics and Nanofluidics, 2010, Vol.9, pp.225-241 (SCI)
15. Wang, M, Chang, C.-C. and Yang, R.-J., “Electroviscous effects in nanofluidic channels,” Journal of Chemical Physics, 2010, Vol. 132, 024701 (6 pages) (SCI)
16. Chang, C.-C and Yang, R.-J., “A perspective on streaming current in silica nanofluidic channels: Poisson-Boltzmann model versus Poisson-Nernst-Planck model,” Journal of Colloid and Interface Science, 2009, Vol. 339, pp.517-520 (SCI)
17. Chang, C.-C and Yang, R.-J., “Chaotic mixing in electro-osmotic flows driven by spatiotemporal surface charge modulation,” Physics of Fluids, 2009, Vol. 21, 052004 (15 pages) (SCI)
18. Chang, C.-C. and Yang, R.-J., “Chaotic mixing in a microchannel utilizing periodically switching electro-osmotic recirculating rolls,” Physical Review E, 2008, Vol.77, 056311 (10 pages) (SCI)
19. Chang, C.-C. and Yang, R.-J., “Hydrodynamic focusing effect on two-unmixed-fluid in microchannels,” International Journal of Nonlinear Sciences and Numerical Simulation, 2008, Vol.9, pp.213-220 (SCI)
20. Chang, C.-C. and Yang, R.-J., “Electrokinetic mixing in microfluidic systems,” Microfluidics and Nanofluidics, 2007, Vol.3, pp.501-525 (SCI)
21. Chang, C.-C., Huang, Z.-X. and Yang, R.-J., “Three-dimensional hydrodynamic focusing in two-layer PDMS microchannels,” Journal of Micromechanics and Microengineering, 2007, Vol.17, pp.1479-1486 (SCI)
22. Chang, C.-C. and Yang, R.-J., “A particle tracking method for analyzing chaotic electroosmotic flow mixing in 3-D microchannels with patterned charged surfaces,” Journal of Micromechanics and Microengineering, 2006, Vol.16, pp.1453-1462 (SCI).
23. Lee, G.-B., Chang, C.-C., Huang, S.-B. and Yang, R.-J., “The hydrodynamic focusing effect insides rectangular microchannels,” Journal of Micromechanics and Microengineering, 2006, Vol. 16, pp.1024-1032 (SCI)
24. Yang, R.-J., Chang, C.-C., Huang, S.-B. and Lee, G.-B., “A new focusing model and switching approach for electrokinetic flow inside microchannels,” Journal of Micromechanics and Microengineering, 2005, Vol.15, pp.2141-2148 (SCI)
25. Yang, R.-J., Tseng, T.-I and Chang. C.-C., “End effects on electroosmotic flows in microchannels,” Journal of Micromechanics and Microengineering, 2005, Vol.15, pp.254-262 (SCI)
26. Chang, C.-C. and Yang, R.-J., “Computational analysis of electrokinetically-driven flow mixing in microchannels with patterned blocks,”Journal of Micromechanics and Microengineering, 2004, Vol.14, pp. 550-558 (SCI)
中文期刊論文
1. 張志彰, 賴慶智, 黃馨儀, 吳信賢, “薄膜式電滲透除濕技術,” 燃燒季刊, 第22卷, 第3期, 2013年8月.
2. 楊瑞珍, 張志彰, “奈米管道內之電動特性應用於能量轉換之研究,” 工程科技通訊, 第125卷, 83-86頁, 2012年3月.
書籍章節
1. Chang, C.-C., Fu, L.-M. and Yang R.-J., “Active mixer,” Encyclopedia of Microfluidics and Nanofluidics, Springer Verlag, 2008.2. Yang R.-J., Chang, C.-C., Chen, J.-K, and Pan, Y.-J., “Microfluidic sample manipulation,” Encyclopedia of Microfluidics and Nanofluidics, Springer Verlag, 2008 . 國際會議
國際研討會論文:
1. Chang, C.-C. and Huang, W.-H., “Ion transport in self-assembled 2D nanofluidic channels constructed by graphene oxide sheets cross-linked with glyoxal and ethylenediamine monomers, ” 70th Annual Meeting of the APS Division of Fluid Dynamics (DFD), Denver, Colorado, USA, November 19-21, 2017.
2. Morikawa, K., Kazoe Y., Chang, C.-C., Tsukahara, T., Mawatari, K and Kitamori, T., “Investigation of liquid properties in extended nanospaces using streaming potential/current system,” 68th Annual Meeting of the APS Division of Fluid Dynamics (DFD), Boston, Massachusetts, USA, November 22-24, 2015.
3. Morikawa, K., Kazoe Y., Chang, C.-C., Tsukahara, T., Mawatari, K and Kitamori, T., “Measurement of electric conductivity of water in extended nanospace using streaming potential/current,” The 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2015), Gyeongju, Korea, October 25-29, 2015.
4. Yeh, H.-C., Chang, C.-C.* and Yang, R.-J., “Ion-size effect on electrokinetic energy conversion in nanofluidic channels,” 10th Annual Green Energy Conference (IGEC-X), Taichuang, Taiwan, May 24-25, 2014.
5. 森川響二郎, 嘉副裕, Chang, C.-C., 馬渡和真, 塚原剛彦, 北森武彦, “流動電位法による拡張ナノ空間の溶液物性評価,”Tokyo, Japan, May 22-23, 2014.
6. 嘉副裕, Chang, C.-C., 馬渡和真, 北森武彦, “拡張ナノ空間のイオン分布に関する研究,” 第33回キャピラリー電気泳動シンポジウム, Tokyo, Japan, November 13-15, 2013.
7. Chang, C.-C., Yang, R.-J., Miau, J.-J., and Lebiga, V., “Liquid flow retardation in charged nanochannels due to electroviscosity,” Taiwan-Russia Bilateral Symposium on Mechanical Engineering, Hsinchu, Taiwan, November 8-9, 2011.
8. Chang, C.-C. and Yang, R.-J., “Effective electrokinetic mixing in a microfluidic device,” 7th International Symposium on Nano-Biomedical Engineering, Tainan, Taiwan, October 16-17, 2008.
9. Chang, C.-C. and Yang, R.-J., “ Chaotic mixing induced by time-wise alternations of electroosmotic recirculating rolls in microchannels, ” ASME Micro/Nanoscale Heat Transfer International Conference, Tainan, Taiwan, January 6-9, 2008.
10. Chang, C.-C., Huang, Z.-H., and Yang, R.-J., “Numerical and experimental investigation of three-dimensional hydrodynamic focusing in PDMS microchannels,” NSTI Nanotech 2007, Santa Clara, CA, USA, May 20-24, 2007.
11. Chang, C.-C., Huang, S.-B., Lee, G.-B. and Yang, R.-J., “Two-dimensional symmetric / asymmetric hydrodynamic flow focusing in rectangular microchannels,” 10th International Conference on Flow Analysis, Porto, Portugal, September, 2006.
12. Chang, C.-C. and Yang, R.-J., “Electroosmotic flow chaotic mixing in 3-D microchannels with patterned charged surface”, International Electrokinetics Conference, Nancy, France, June 2006.
13. Chang, C.-C. , and Yang, R.-J., “Electroosmotic flow chaotic mixing in three-dimensional microchannels with patterned charged surface,” The 2th International Symposium on Micro and Nano technology, Hsinchu, Taiwan, March 29-31, 2006.
14. Yang, R.-J. , and Chang, C.-C., “Enhancement of electrokinetically-driven flow mixing in 3-D microchannel using heterogeneous surfaces,” ASME International Mechanical Engineering Congress and RD&D Expo. 2004, Anaheim, CA, USA, Nov. 13-19, 2004.
15. Yang, R.-J., Fu, L.-M., Lee, G.-B., and Chang, C.-C. ,“Dispersion control in microfluidic bio-chips by localized zeta potential variation,” Materials Research Society (MRS) Spring Meeting, San Francisco, April 21-25, USA, 2003.
國內會議
國內研討會論文:
1. 張志彰, 賴慶智, 羅以伶, 黃馨儀, 吳信賢, “電滲透除濕效能之理論評估分析,” 中國機械工程年會暨全國學術研討會, 宜蘭, 台灣, 2013年12月6-7日.
2. Yeh, H.-C., Chang, C.-C., and Yang, R.-J., “Reverse electrodialysis in conical nanopores: salinity gradient-driven power generation,” The 20th National Conference on Computational Fluid Dynamics, Nantou, Taiwan, August 21-23, 2013. (張貼論文獎)
3. Chang, C.-C., Huang, S.-B., Lee, G.-B. and Yang, R.-J., “A study on electrokinetic focusing and switching effects,” The 28th Conference on Theoretical and Applied Mechanics, Taipei, Taiwan, December 3-4, 2004 (The Winner of the Student Paper Contest in Thermal-Fluid-Energy Group)
4. Yang, R.-J. and Chang, C.-C., “Enhancement of electrokinetic flow mixing in three dimensional microchannels using heterogeneous surface charge,” The 11th National Conference on Computational Fluid Dynamics, Taitung, Taiwan, August 5-7, 2004 (Best Paper Award)
5. Lee, C.-Y., Fu L.-M., Yang, R.-J., Chang, C.-C., and Lee, G.-B.,“Micro-fabricated electrokinetically-driven mixer by localized zeta potential variation,” The 27th Conference on Theoretical and Applied Mechanics, Tainan, Taiwan ,December 12-13, 2003.
6. Chang, C.-C. and Yang, R.-J., “Analysis of mixing mechanism of electro-osmotic flows in microchannels,” The 10th National Conference on Computational Fluid Dynamics, Hua-Lien, Taiwan, August 14-16, 2003.
