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1. ÉÂÎ÷Ê¡×ÔÈ»¿Æѧ»ù´¡Ñо¿¼Æ»®ÃæÉÏÏîÄ¿£¬½ü½çÃæ΢³ß¶È¿ÕÅÝÓë×ÔÇý¶¯Î¢ÇòÏ໥×÷ÓûúÀíµÄÑо¿£¬2020/01-2021/12£¬Ö÷³Ö£»

2. ¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÇàÄê¿Æѧ»ù½ðÏîÄ¿£¬Janus΢¿ÅÁ£×ÔÀ©É¢Ó¾Ô˶¯µÄLBM½¨Ä£¼°»úÀíÑо¿£¬2017.1-2019.12£¬Ö÷³Ö£»

3. ¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÓ¦¼±¹ÜÀíÏîÄ¿£¬»ùÓÚ¸ñ×ÓBoltzmann·½·¨µÄJanusÁ£×Ó×ÔÇý¶¯ÊýֵģÄâÖб߽çÌõ¼þµÄÑо¿£¬2015/01-2015/12£¬Ö÷³Ö£»

4. ÉÂÎ÷Ê¡×ÔÈ»¿Æѧ»ù´¡Ñо¿¼Æ»®ÇàÄêÈ˲ÅÏîÄ¿£¬»ùÓÚLBMµÄJanusÁ£×Ó¶à×é·Ö²¼ÀÊÔ˶¯Ä£Ð͵ÄÑо¿£¬2016/01-2017/12£¬Ö÷³Ö£»

5. ÉÂÎ÷Ê¡½ÌÓýÌüרÏî¿ÆÑмƻ®ÏîÄ¿£¬»ùÓÚ¸ñ×Ó Boltzmann ·½·¨µÄ Janus Á£×Ó×ÔÇý¶¯ÊýֵģÄâ±ß½çÌõ¼þµÄÑо¿£¬2015/06 -2016/12£¬Ö÷³Ö£»

6. Î÷²¿ÂÌÉ«½¨Öþ¹ú¼ÒÖصãʵÑéÊÒÅàÓý»ùµØ×ÔÖ÷¿ÆÑÐÏîÄ¿£¬»ùÓÚ¸ñ×ÓBoltzmann·½·¨µÄJanusÁ£×Ó×ÔÇý¶¯ÊýֵģÄâÑо¿£¬2015/01-2017/12£¬Ö÷³Ö£»

7. Ì첩×ۺϿËÂÞµØÑÇappÇàÄê¿Æ¼¼»ù½ð£¬»ùÓÚ¸ñ×ÓBoltzmann·½·¨µÄJanusÁ£×Ó×ÔÇý¶¯ÊýֵģÄâÑо¿£¬2014/01-2016/12£¬Ö÷³Ö¡£

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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. DOI: 10.1108/hff-12-2021-0801

[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. DOI: 10.1108/hff-07-2022-0446

[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. DOI: 10.1108/hff-05-2022-0269

[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. DOI: 10.1108/hff-02-2022-0095

[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. DOI: 10.1002/smll.202203872

[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. DOI: 10.1016/j.scitotenv.2022.154931

2019

[9] ãÆ´Ï´Ï, ´Þº£º½, ÕźèÑã, ³ÂÁ¦, ÁõÑÅÁÕ. ΢ÆøÅÝÉú³¤ÓëÀ£Ãð¶Ô½üÁÚ΢ÇòÓ°ÏìµÄÊýֵģÄâÑо¿[J]. Ó¦ÓÃÁ¦Ñ§Ñ§±¨, 2019, 36(3): 580-587

[10] 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. DOI: 10.1007/s10404-019-2230-1

[11] ºú¾², Ñî³É½¨, ´Þº£º½, ³ÂÁ¦. ÐÂÐ;²Ë®Ñ¹Ç¿ÊµÑéÉ豸ÑÐÖƼ°½Ìѧ¸Ä¸ïʵ¼ù[J]. ʵÑé¼¼ÊõÓë¹ÜÀí, 2019, 36(05): 107-110

2018

[12] ´Þº£º½, ÕÅÓÀ²¨, Õž²¸Õ, ÕźèÑã, ³ÂÁ¦. ΢¿×µÀÄÚÉø͸ÏÖÏóµÄÊýֵģÄâ[J]. Ì첩×ۺϿËÂÞµØÑÇappѧ±¨(×ÔÈ»¿Æѧ°æ), 2018, 50(02): 277-284

[13] 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

[14] 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.

[15] 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

2017

[16] κÃξÙ, ´Þº£º½, ÕźèÑã, ³ÂÁ¦. ÌúË®Çãµ¹¹ý³ÌµÄÈÈÓðÁ÷Á÷³¡ÌØÐÔÑо¿[J]. Èȼӹ¤¹¤ÒÕ, 2017, 46(17): 114-118+121

[17] ÕÅìÍ, ´Þº£º½, ÖÜÃô, ³ÂÁ¦. »ùÓÚÀÉÖ®Íò·½³ÌºÍLBMµÄJanus¿ÅÁ£×ÔÇýÔ˶¯Ä£Äâ[J]. Ë®¶¯Á¦Ñ§Ñо¿Óë½øÕ¹(A¼­), 2017, 32(02): 237-246

[18] ÖܹâÓê, ³ÂÁ¦, ÕźèÑã, ´Þº£º½. »ùÓÚ¸ñ×ÓBoltzmann·½·¨µÄ×ÔÇý¶¯Janus¿ÅÁ£À©É¢Ó¾Á¦[J]. ÎïÀíѧ±¨, 2017, 66(8): 84703

[19] 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

[20] κÃξÙ, ³ÂÁ¦, ÎéÌÎ, ÕźèÑã, ´Þº£º½. ΢³ß¶È¿ÕÅÝÀ£ÃðÇýʹ΢ÇòÔ˶¯µÄ»úÀíÑо¿[J]. ÎïÀíѧ±¨, 2017, 66(16): 164-172

[21] 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

[22] 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

[23] 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

2015

[24] ´Þº£º½, Ì·Ïþ¾ý, ÕźèÑã, ³ÂÁ¦. ×ÔÇý¶¯Janus΢Çò½ü±ÚÔ˶¯ÌØÐÔʵÑéÓëÊýֵģÄâÑо¿[J]. ÎïÀíѧ±¨, 2015, 64(13): 277-285

2014

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[25] Li Chen, Yang Yu, Jianhua Lu, Guoxiang Hou. A comparative study of lattice Boltzmann methods using bounce-back schemes and immersed boundary ones for flow acoustic problems[J]. International Journal for Numerical Methods in Fluids, 2014, 74(6): 439-467

[26] Li Chen, Yang Yu, Guoxiang Hou. Sharp-interface immersed boundary lattice Boltzmann method with reduced spurious-pressurs oscillations for moving boundaries[J]. Physical Review E, 2013, 87: 53306

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[2] ÍõÀ×ÀÚ¡¢´Þº£º½¡¢Õž²¡¢³ÂÁ¦¡¢ÍõÀÚ£¬Ò»ÖÖÖпÕJanus¿ÅÁ£µÄÖƱ¸·½·¨, ÊÚȨÈÕÆÚ: 2017-07-28, ÊÚȨºÅ: CN201710633517.8.

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