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2023
[1] Yongjun Jin, Haihang Cui, Li Chen, Haiguo Yin, Zhe Liu. Tessellation-based modeling and flow simulation of pulmonary acinus with alveolar pore[J]. International Journal of Numerical Methods for Heat and Fluid Flow, 2023, 33(1): 42-64
[2] Zhe Liu, Hao Wei, Li Chen, Haihang Cui, Bohua Sun. Light-driven mixing strategy inside a nanofluid droplet by asymmetrical Marangoni flow[J]. International Journal of Numerical Methods for Heat and Fluid Flow, 2023, 33(3): 1046-1061
[3] Zhe Liu, Zexiong Yu, Leilei Wang, Li Chen, Haihang Cui, Bohua Sun. Flow mechanism of Gaussian light-induced vortex motion inside a nanofluid droplet[J]. International Journal of Numerical Methods for Heat and Fluid Flow, 2023, 33(2): 712-727
[4] Wenchao Lv, Angui Li, Haihang Cui, Li Chen. General Analytical Method to Predict the Spatial-Temporal Distribution of Extreme Pressure in High-Speed Railway Tunnels in the Post-Train Stage[J]. Applied Sciences, 2023, 13(3): 1350
2022
[5] Yongjun Jin, Haihang Cui, Li Chen, Zhe Liu. Study of the mechanism and influencing factors of sputum excretion from the distal lung[J]. International Journal of Numerical Methods for Heat and Fluid Flow, 2022, 32(12): 3782-3799
[6] ³ÂÁ¦, ¶Å²ÊФ, Ò¦ÃÈ, Íõ¸ßÑó, Áº²©Ñó, Íõ¾´è¤, Áõ˼ç÷, ÀîÓêÕÜ, ´Þº���£º½, ÖÜÃô. »ùÓÚÉç»áÁ¦Ä£Ð͵ĵØÌúվ΢¹ÛÈËȺ´«È¾Óë·À¿Ø[J]. Öйú¸ÐȾ¿ØÖÆÔÓÖ¾, 2022, 21(01): 22-29
[7] Leilei Wang, Li Chen, Xu Zheng, Zexiong Yu, Wenchao Lv, Minjia Sheng, Lina Wang, Pengcheng Nie, Hangyu Li, Dongshi Guan, Haihang Cui. Multimodal Bubble Microrobot Near an Air-Water Interface[J]. Small, 2022, 18(39): 2203872
[8] Yongjun Jin, Haihang Cui, Li Chen, Kai Sun, Zhe Liu. Effects of airway deformation and alveolar pores on particle deposition in the lungs[J]. Science of The Total Environment, 2022, 831: 154931
[9] Haiguo Yin, Zhuohang Li, Xinping Zhai, Yuxuan Ning, Le Gao, Haihang Cui, Zhenjun Ma, Angui Li. Field measurement of the impact of natural ventilation and portable air cleaners on indoor air quality in three occupant states[J]. Energy and Built Environment, 2022
2021
[10] Áõ¾§¾§, лά¿Æ, ÕŲ©, À, ÀîÓÀ½¡, ¶¡×¿, ´Þº���£º½, Íõâù. »ùÓÚMIKE 21ÊýֵģÄâʵ¼ÊÀùʯÂË´²Í¨Á÷ÌØÐÔ: ÒÔººÖÐÊÐijºÓµÀÉú̬ÐÞ¸´ÏîĿΪÀý[J]. »·¾³¹¤³Ì, 2021, 39(01): 47-50+147
[11] Leilei Wang, Haihang Cui, Lei Wang, Xu Han, Xudong Wang. Floating microparticles of ZnIn2S4 @hollow glass microsphere for enhanced photocatalytic activity[J]. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2021, 46(15): 9678-9689
2020
[12] Wenchao Lv, Angui Li, Jiangyan Ma, Haihang Cui, Xin Zhang, Wenrong Zhang, Yongzhen Guo. Relative importance of certain factors affecting the thermal environment in subway stations based on field and orthogonal experiments[J]. Sustainable Cities and Society, 2020, 56: 102107
[13] ÁõÕÜ, ÍõÀ×ÀÚ, ʱÅóÅó, ´Þº���£º½. ÄÉÃ×Á÷ÌåÒºµÎÄڵĹâÇýÁ÷¶¯ÊµÑé¼°Æä½âÎö½â[J]. ÎïÀíѧ±¨, 2020, 69(6): 064701
2019
[14] ãÆ´Ï´Ï, ´Þº���£º½, ÕźèÑã, ³ÂÁ¦, ÁõÑÅÁÕ. ΢ÆøÅÝÉú³¤ÓëÀ£Ãð¶Ô½üÁÚ΢ÇòÓ°ÏìµÄÊýֵģÄâÑо¿[J]. Ó¦ÓÃÁ¦Ñ§Ñ§±¨, 2019, 36(3): 580-587
[15] Li Chen, Chenyu Mo, Lihong Wang, Haihang Cui. Direct numerical simulation of the self-propelled Janus particle: use of grid-refined fluctuating lattice Boltzmann method[J]. Microfluids and Nanofluidics, 2019, 23(5): 73
[16] ºú¾², Ñî³É½¨, ´Þº���£º½, ³ÂÁ¦. ÐÂÐ;²Ë®Ñ¹Ç¿ÊµÑéÉ豸ÑÐÖƼ°½Ìѧ¸Ä¸ïʵ¼ù[J]. ʵÑé¼¼ÊõÓë¹ÜÀí, 2019, 36(05): 107-110
2018
[17] ´Þº����£º½, ÕÅÓÀ²¨, Õž²¸Õ, ÕźèÑã, ³ÂÁ¦. ΢¿×µÀÄÚÉø͸ÏÖÏóµÄÊýֵģÄâ[J]. Ì첩×ۺϿËÂÞµØÑÇappѧ±¨(×ÔÈ»¿Æѧ°æ), 2018, 50(02): 277-284
[18] Tao Wu, Hongyan Zhang, Haihang Cui. Numerical Simulation of the Effect of Gravitational Direction on Particle Deposition in Pulmonary Acinus under the Condition of Breath Holding[J]. Nanotechnology and Precision Engineering, 2018, 1(01): 66-72
[19] Áõ½ðºÀ, ÍõÀ×ÀÚ, ´Þº���£º½, ÕźèÑã, ³ÂÁ¦. »ùÓÚ¶¯Ì¬¹âÉ¢Éä¼¼ÊõÑо¿ÈºÌå×ÔÇý¶¯Janus¿ÅÁ£µÄÔöÇ¿ÐͲ¼ÀÊÔ˶¯ÐÐΪ[J]. ¿Æѧͨ±¨, 2018, 63(Z2): 2994-3001
[20] Lei-lei Wang, Li Chen, Jing Zhang, Jinming Duan, Lei Wang, Zhanhua Silber-Li, Xu Zheng, Haihang Cui. Efficient Propulsion and Hovering of Bubble-Driven Hollow Micromotors underneath an Air-Liquid Interface[J]. Langmuir, 2018, 34(35): 10426-10433
[21] Haihang Cui, Rui Ma, Li Chen, Hongyan Zhang. Effect of particle-particle interaction on dielectrophoretic single particle trap in a sudden contraction flow[J]. Nanotechnology and Precision Engineering, 2018, 1(4): 236-241
[22] Yu Zhou, Mengying Wang, Yi Wang, Haihang Cui, Jialiang Wang. Development of self-label method to distinguish supply air from room air without tracer in numerical simulations[J]. Building and Environment, 2018, 145: 223-233
[23] ÁõÑÅÁÕ, Íõçæ, ´Þº�����£º½. ¶ÀÁ¢Ñ§Ôº¹¤¿Æרҵ»ù´¡¿Î½ÌѧµÄ˼¿¼[J]. ÖйúÒ±½ð½ÌÓý, 2018, (04): 9-10+13
[24] ÁõÑÅÁÕ, ´Þº����£º½, ¹ùÑǾü. ´«ÈÈѧ¿Î³Ì½¨Éè·½°¸[J]. ÖйúÒ±½ð½ÌÓý, 2018, (06): 32-35
2017
[25] Jing Zhang, Xu Zheng, Haihang Cui, Zhanhua Silber-Li. The Self-Propulsion of the Spherical Pt-SiO2 Janus Micro-Motor[J]. MICROMACHINES, 2017, 8(4): 123
[26] Ö£Ðñ, ´Þº���£º½, ÀîÕ½»ª. JanusÇòÐÎ΢Âí´ïµÄ×ÔÇý¶¯»úÀíÑо¿:×ÔÀ©É¢Ó¾¶¯Óë΢ÆøÅÝÍƽø[J]. ¿Æѧͨ±¨, 2017, 62(Z1): 167-186
[27] κÃξÙ, ´Þº���£º½, ÕźèÑã, ³ÂÁ¦. ÌúË®Çãµ¹¹ý³ÌµÄÈÈÓðÁ÷Á÷³¡ÌØÐÔÑо¿[J]. Èȼӹ¤¹¤ÒÕ, 2017, 46(17): 114-118+121
[28] ÕÅìÍ, ´Þº�����£º½, ÖÜÃô, ³ÂÁ¦. »ùÓÚÀÉÖ®Íò·½³ÌºÍLBMµÄJanus¿ÅÁ£×ÔÇýÔ˶¯Ä£Äâ[J]. Ë®¶¯Á¦Ñ§Ñо¿Óë½øÕ¹(A¼), 2017, 32(02): 237-246
[29] ÍõÀ×ÀÚ, ´Þº���£º½, Õž², Ö£Ðñ. ×ÔÇý¶¯Î¢ÄÉÂí´ïÔÚË®»·¾³ÁìÓòµÄÑо¿½øÕ¹[J]. Öйú¿Æѧ:»¯Ñ§, 2017, 47(01): 70-81
[30] ÖܹâÓê, ³ÂÁ¦, ÕźèÑã, ´Þº���£º½. »ùÓÚ¸ñ×ÓBoltzmann·½·¨µÄ×ÔÇý¶¯Janus¿ÅÁ£À©É¢Ó¾Á¦[J]. ÎïÀíѧ±¨, 2017, 66(8): 84703
[31] Li Chen, Haihang Cui, Lei Wang. Modified Ghost fluid method on LBM with reduced spurious-pressure oscillations for moving boundaries[J]. International Journal of Modern Physics C, 2017, 28(4): 1750056
[32] κÃξÙ, ³ÂÁ¦, ÎéÌÎ, ÕźèÑã, ´Þº�����£º½. ΢³ß¶È¿ÕÅÝÀ£ÃðÇýʹ΢ÇòÔ˶¯µÄ»úÀíÑо¿[J]. ÎïÀíѧ±¨, 2017, 66(16): 164-172
[33] ÕźèÑã, ÃÀ¼Ì¶¦, ÖìºéÓî, ´Þº���£º½, ³ÂÁ¦. »ùÓÚÄÜÁ¿¾ù·ÖÔÀíµÄ΢¿ÅÁ£²¼ÀÊÔ˶¯LBMÄ£Äâ[J]. Ì첩×ۺϿËÂÞµØÑÇappѧ±¨(×ÔÈ»¿Æѧ°æ), 2017, 49(04): 561-564+584
[34] Õž², Ö£Ðñ, ÍõÀ×ÀÚ, ´Þº���£º½, ÀîÕ½»ª. ÆøÅÝÍƽøÐÍÖпÕJanus΢ÇòÔ˶¯ÌØÐÔµÄʵÑéÑо¿[J]. ʵÑéÁ÷ÌåÁ¦Ñ§. 2017, 31(02): 61-66
[35] Li Chen, Hongyu Zhu, Haihang Cui. A study of the Brownian motion of the non-spherical microparticles on fluctuating lattice Boltzmann method[J]. Microfluidics and Nanofluidics, 2017, 21(3): 54
2016
[36] ÍõÀ×ÀÚ, ´Þº�����£º½, Õž², Ö£Ðñ, ÍõÀÚ, ³ÂÁ¦. ²»Í¬Á£¾¶Janus΢ÇòµÄ×ÔÇý¶¯:ʵÑé¼°Çý¶¯»úÖƶԱÈ[J]. ÎïÀíѧ±¨, 2016, 65(22): 220201
[37] ÀîÕñÕñ, ÕźèÑã, ´Þº����£º½, ÀîÑå»Ô. ·ÎÏÙÅÝÄÚÁ÷¶¯Óë¿ÉÈë·Î¿ÅÁ£Îï³Á»ýÌØÐÔµÄÊýֵģÄâ[J]. Ó¦ÓÃÁ¦Ñ§Ñ§±¨, 2016, 33(05): 806-812
[38] ´Þº�����£º½, Áõ¬B·¼. »ùÓÚÎÛȾÎïÁÙ½çÕ³¸½Á¦µÄ³¬Â˶¯Ì¬¹ý³ÌµÄCFDÄ£Äâ[J]. »·¾³¿Æѧѧ±¨, 2016, 36(10): 3636-3642
2015
[39] Xu Zheng, Meiling Wu, Fandong Kong, Haihang Cui, Zhanhua Silber-Li. Visualization and measurement of the self-propelled and rotational motion of the Janus microparticles[J]. Journal of Visualization, 2015, 18(3): 425-435
[40] ÀîÕÐÎä, ÕźèÑã, ´Þº�����£º½. »ùÓÚÒ»°ãŨ¶ÈÈëÉäÌõ¼þµÄÆû³µÑï³¾ÊýֵģÄâÑо¿[J]. »·¾³¹¤³Ì, 2015, 33(01): 85-89
[41] ÕźèÑã, ÀîÑå»Ô, ´Þº���£º½. PM2.5ϸ¿ÅÁ£ÎïÔÚ·ÎÏÙÅÝÇøÔ˶¯¼°³Á»ýµÄÊýֵģÄâ[J]. ÄÉÃ×¼¼ÊõÓ뾫Ãܹ¤³Ì, 2015, 13(04): 264-270
[42] ´Þº�����£º½, ·ë»»´º, ÐíÁÕ, ÕźèÑã. W/OÒºµÎÈÆÁ÷΢ÖùÕóÁеÄÊýֵģÄâÑо¿[J]. Ó¦ÓÃÁ¦Ñ§Ñ§±¨, 2015, 32(01): 76-82
[43] ´Þº���£º½, ºúÏþ¾§, Áõ¬B·¼. »ùÓÚÒƶ¯Íø¸ñµÄ³¬ÂËĤÎÛȾÎï½ØÁô¹ý³ÌµÄ¶¯Ì¬ÊýֵģÄâ[J]. Ĥ¿ÆѧÓë¼¼Êõ, 2015, 35(06): 59-66
[44] ´Þº���£º½, Ì·Ïþ¾ý, ÕźèÑã, ³ÂÁ¦. ×ÔÇý¶¯Janus΢Çò½ü±ÚÔ˶¯ÌØÐÔʵÑéÓëÊýֵģÄâÑо¿[J]. ÎïÀíѧ±¨, 2015, 64(13): 277-285
2014
[45] Àîì³, ÕźèÑã, ÎäÃÀÁá, Ö£Ðñ, ´Þº���£º½. ×ÔÇý¶¯Janus΢ÇòµÄ·ÖÊýBrownianÔ˶¯Ñо¿[J]. Ó¦ÓÃÊýѧºÍÁ¦Ñ§, 2014, 35(06): 663-673
[46] Meiling Wu, Hongyan Zhang, Xu Zheng, Haihang Cui. Simulation of diffusiophoresis force and the confinement effect of Janus particles with the continuum method[J]. AIP Advances, 2014, 4(3): 31326
[47] Haihang Cui*, Ping Shen, Hongyan Zhang. Effect of particle-particle interaction on dielectrophoretic single particle trap[J]. Öйú¿Æ¼¼ÂÛÎÄÔÚÏß, 2014, (2): 201402-218
[48] ºú¾², ÕźèÑã, Ö£Ðñ, ´Þº���£º½. ×ÔÇý¶¯Janus΢Çò·ÖÊý²¼ÀÊÔ˶¯µÄ¿ÅÁ£¶¯Á¦Ñ§Ä£Äâ[J]. Ë®¶¯Á¦Ñ§Ñо¿Óë½øÕ¹(A¼), 2014, 29(04): 377-384
[49] ´Þº���£º½, Ì·Ïþ¾ý, ÕźèÑã. ²»Í¬ÐÎ×´Janus¿ÅÁ£×ÔÇý¶¯ÌØÐÔÊýֵģÄâ[J]. ÄÉÃ×¼¼ÊõÓ뾫Ãܹ¤³Ì, 2014, 12(05): 340-345
[50] Jiliang Chen, Hongyan Zhang, Xu Zheng, Haihang Cui. Janus particle microshuttle: 1D directional self-propulsion modulated by AC electrical field[J]. AIP Advances, 2014, 4(3): 31325
[51] ÎäÃÀÁá, Ö£Ðñ, ´Þº�����£º½, ÀîÕ½»ª. Janus¿ÅÁ£ÓÐЧÀ©É¢ÏµÊýµÄʵÑéÑо¿[J]. Ë®¶¯Á¦Ñ§Ñо¿Óë½øÕ¹(A¼), 2014, 29(03): 274-281
[52] ÀîÃ÷, ´Þº���£º½, ÕźèÑã, Íõâù. Ãܶȴ¦Àí·½·¨ÔÚÔ²ÖùÇ»Ìå´óβî×ÔÈ»¶ÔÁ÷ÊýֵģÄâÖеÄÓ°Ïì[J].Á¦Ñ§¼¾¿¯, 2014, 35(04): 658-668
2013
[53] Xu Zheng, Borge ten Hagen, Andreas Kaiser, Meiling Wu, Haihang Cui, Zhanhua Silber-Li*, Hartmut Loewen*. Non-Gaussian statistics for the motion of self-propelled Janus particles: Experiment versus theory[J]. Physical Review E, 2013, 88(3): 032304
[54] ÕźèÑã, ÐíÁÕ, ´Þº�����£º½. ¾²Ë®ÖÐÉÏÉýÆøÅݶԿÅÁ£Ô˶¯Ó°ÏìµÄÊýֵģÄâÑо¿[J]. Ì첩×ۺϿËÂÞµØÑÇappѧ±¨(×ÔÈ»¿Æѧ°æ), 2013, 45(04): 582-586+596
[55] Áõ˳¶«, ÕźèÑã, ÉòƼ, ´Þº�����£º½. Âö³åÐͽéµçµçÓ¾¿ÅÁ£ÌØÒìÐÔ·ÖÀëµÄÊýֵģÄâÑо¿[J]. Ó¦ÓÃÁ¦Ñ§Ñ§±¨, 2013, 30(01): 59-64
[56] ÕÅÑþ, ÕźèÑã, ´Þº����£º½, ½¹Àö»Û. »ú¶¯³µµ¥³µÑﳾŨ¶È·Ö²¼¹æÂɵÄÄ£Äâ[J]. »·¾³¹¤³Ìѧ±¨, 2013, 7(08): 3094-3098
[57] ´Þº���£º½*, ÕźèÑã, ÕÅÖ¾Õþ, ÖÜÓî, ³£Ö¾Ó¢. Á÷ÌåÁ¦Ñ§Ð¡×¨ÌâÌÖÂÛÌáÉý¿ÎÌýÌѧЧ¹ûµÄÑо¿[J]. ´óѧ½ÌÓý, 2013, (09): 106-108
2009
[58] Haihang Cui*, Kian-Meng Lim. Pillar array microtraps with negative dielectrophoresis[J]. Langmuir, 2009, 25(6): 3336-3339
[59] Haihang Cui*, Joel Voldman, Xuefei He, Kian-Meng Lim. Separation of particles by pulsed dielectrophoresis[J]. Lab on chip, 2009, 9(16): 2306-2312
2006
[60] Zhanhua Silber-Li, Haihang Cui, Yuping Tan, Patrick Tabeling. Flow characteristics of liquid with pressure-dependent viscosities in microtubes[J]. Acta Mechanica Sinica, 2006, 22(1): 17-21
[61] Xiuhan Li, Xiaomei Yu, Dacheng Zhang, Haihang Cui, Ting Li, Ying Wang, Yangyuan Wang. Characteristics of Gas Flow within a Micro Diffuser/Nozzle Pump[J]. Chinese Physics Letters, 2006, 23(5): 1230-1233
2004
[62] ÐìÕ÷, ÀîÕ½»ª, Áõ³å, ´Þº���£º½, ÍõÁ¢¶¦. ׶ÐÎÖá¶Ô³Æ΢¹ÜµÀÄÚÁ÷¶¯ÌØÐÔʵÑéÑо¿[J]. Ó¦ÓÃÁ¦Ñ§Ñ§±¨, 2004, 21(02): 125-128
[63] Haihang Cui, Zhanhua Silber-Li*, Shannong Zhu. Flow characteristics of liquids in microtubes driven by a high pressure[J]. Physics of Fluids, 2004, 16(5): 1803-1810
[64] Zhanhua Silber-Li*, Haihang Cui, Zheng Xu, et al. Analyses of factors influencing liquid experiments in microtubes, INTERNATIONAL JOURNAL OF NONLINEAR SCIENCES AND NUMERICAL SIMULATION, 2004, 5 (2): 183-189
[65] ´Þº����£º½, ÀîÕ½»ª, ½ù¸Õ. Ò»ÖÖPDMS±¡Ä¤Î¢·§µÄÖƱ¸ÓëÐÔÄÜ·ÖÎö. ΢¼Ó¹¤¼¼Êõ, 2004 £³:70-75
2002
[66] Zhanhua Silber-Li*, Haihang Cui. Proceeding of experiments about liquid flow through microtubes, INTERNATIONAL JOURNAL OF NONLINEAR SCIENCES AND NUMERICAL SIMULATION, 2002 3 (3-4): 577-580
2001
[67] ÀîÕ½»ª*, ´Þº�����£º½. ΢³ß¶ÈÁ÷¶¯ÌØÐÔ[J]. »úеǿ¶È, 2001, 23(04): 476-480
»áÒéÂÛÎÄ
[1] ´Þº�����£º½, ÍõÀ×ÀÚ, Õž², Ö£Ðñ. Janus΢Çò¸ßЧ×ÔÇýÔ˶¯Ñо¿[C]. µÚ¾Å½ìÈ«¹úÁ÷ÌåÁ¦Ñ§Ñ§Êõ»áÒéÂÛÎÄÕªÒª¼¯, 2016: 389
[2] ´Þº����£º½, ÍõÀ×ÀÚ, Ì·Ïþ¾ý, ÕźèÑã. ×ÔÇý¶¯Janus΢ÇòÁ½Ïà½çÃæÔ˶¯ÌØÐÔÑо¿[C]. ÖйúÁ¦Ñ§´ó»á-2015ÂÛÎÄÕªÒª¼¯, 2015: 199
[3] Ö£Ðñ, ÎäÃÀÁá, ¿×·±¶°, ´Þº���£º½, ÀîÕ½»ª. Janus΢Çò×ÔÇý¶¯¼°ÐýתÔ˶¯ÊµÑéÑо¿[C]. ÖйúÁ¦Ñ§Ñ§»áÁ÷ÌåÁ¦Ñ§×¨ÒµÎ¯Ô±»á, 2014: 200
[4] Ì·Ïþ¾ý, ÕźèÑã, ´Þº����£º½. ½ü±Ú×ÔÇý¶¯Janus¿ÅÁ£ÐýתÌØÕ÷ʱ¼äÑо¿[C]. µÚ°Ë½ìÈ«¹úÁ÷ÌåÁ¦Ñ§Ñ§Êõ»áÒéÂÛÎÄÕªÒª¼¯, 2014: 209
[5] ´Þº���£º½, ÐíÁÕ, ÕźèÑã. »ùÓÚ΢Öù³ÂÁеÄw/oÒºµÎ¶þά²Ù¿ØÊýֵģÄâÑо¿[C]. ÖйúÁ¦Ñ§´ó»á-2013ÂÛÎÄÕªÒª¼¯���¡¢Î÷°²½»Í¨´óѧ, 2013: 267
[6] Ö£Ðñ, ÎäÃÀÁá, ¹¬´ºÁÁ, ¿×·±¶°, ´Þº����£º½, ÀîÕ½»ª. Janus΢Çò×ÔÀ©É¢Ó¾¶¯ÊµÑéÑо¿[C]. ÖйúÁ¦Ñ§´ó»á-2013ÂÛÎÄÕªÒª¼¯, 2013: 264
[7] Ö£Ðñ, ÎäÃÀÁá, ¿×·±¶°, ´Þº���£º½, ÀîÕ½»ª*. Janus΢ÇòÈÜÒº»¯Ñ§·´Ó¦Î¶ȵIJâÁ¿[C]. µÚ¾Å½ìÈ«¹úʵÑéÁ÷ÌåÁ¦Ñ§Ñ§Êõ»áÒéÂÛÎļ¯, 2013: 30-35
[8] Liguo Chen, Haihang Cui*, Shaoqian Li. Study on trapping two particles with dielectrophoretic microfluidic chip[C]. 8th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems, China, 2013-04-07ÖÁ2013-04-10
[9] Liguo Chen, Shaoqian Li, Haihang Cui, Xu Zheng. Numerical Simulation about Trapping Two Particles in Microfluidic Dielectrophoretic Chip[C]. The Second International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale, China, 2012-08-29ÖÁ2012-09-01
[10] ´Þº���£º½, Áõ˳¶«, ÉòƼ, ÕźèÑã, ³£Ö¾Ó¢. »ùÓÚ½éµçµçӾ΢Á÷¿ØоƬµÄ΢ϸ¿ÅÁ£Îï·ÖÀëÑо¿[C]. 2011Öйú»·¾³¿Æѧѧ»áѧÊõÄê»áÂÛÎļ¯£¨µÚËÄ¾í£©, 2011: 870-874
[11] Ping Shen, Haihang Cui, Hongyan Zhang. Study of Fatigue Life of DNA by Dynamic Dielectrophoresis[C]. 3rd CHINESE-FRENCH SYMPOSIUM ON MICROFLUIDS, China, 2011-10-30ÖÁ2011-11-03
[12] ´Þº�����£º½*, ³£Ö¾Ó¢, ÕźèÑã. ¿ÅÁ£¼äÏ໥×÷ÓÃÁ¦¶Ô½éµçµçÓ¾µ¥¿ÅÁ£²¶×½ÐÔÄܵÄÓ°Ïì[C]. µÚÒ»½ì¹ú¼Ê΢Äɳ߶ÈÉúÎïҽѧ·ÖÀëºÍ·ÖÎö¼¼ÊõѧÊõ»áÒéôßµÚÁù½ìÈ«¹ú΢ȫ·ÖÎöѧÊõ»áÒé, Öйú, 2010-11-17ÖÁ2010-11-20
[13] ´Þº���£º½*, Áõ˳¶«, ÉòƼ, ÕźèÑã, ³£Ö¾Ó¢. »ùÓÚ½éµçµçӾ΢Á÷¿ØоƬµÄ΢ϸ¿ÅÁ£Îï·ÖÀëÑо¿[C]. ¡°¼Ó¿ì¾¼Ã·¢Õ¹·½Ê½×ª±ä¡ª»·¾³ÌôÕ½Óë»úÓö¡±¡ª2011Öйú»·¾³¿Æѧѧ»áѧÊõÄê»á, Öйú, н®Î¬Îá¶û×ÔÖÎÇø, ÎÚ³ľÆëÊÐ, 2011-08-17ÖÁ2011-08-21
[14] Haihang Cui, Kian-Meng Lim. Micro-pillar barriers for guiding, mixing and sorting droplets[C]. Solid-State Sensors, Actuators and Microsystems Conference, 2009. TRANSDUCERS 2009. International, 2009
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