Menghua Liu | 王化平课题组https://micronanorobotics.github.io/MNRLab.github.io/zh/author/menghua-liu/Menghua LiuHugo Blox Builder (https://hugoblox.com)zh-cnMon, 01 Jan 2024 00:00:00 +0000https://micronanorobotics.github.io/MNRLab.github.io/media/icon_hu_b75d732ddc2eff0c.pngMenghua Liuhttps://micronanorobotics.github.io/MNRLab.github.io/zh/author/menghua-liu/A Microfluidic Chip for Testing the Migration Ability of SH-SY5Y Cells in Constricted Channelshttps://micronanorobotics.github.io/MNRLab.github.io/zh/publication/conference-2024-a-microfluidic-chip-for-testing-the-migration-ability-of-sh-sy5y-cells/Mon, 01 Jan 2024 00:00:00 +0000https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/conference-2024-a-microfluidic-chip-for-testing-the-migration-ability-of-sh-sy5y-cells/<h2 id="source-record">Source record</h2> <p>Menghua Liu, Anping Wu, Kailun Bai, Haotian Yan, Xi Yang, Qing Shi, Huaping Wang, Yaozhen Hou., &ldquo;A Microfluidic Chip for Testing the Migration Ability of SH-SY5Y Cells in Constricted Channels,&rdquo; 2024 2nd International Conference on Frontiers of Intelligent Manufacturing and Automation (CFIMA 2024), Baotou, China, 2024.</p>Arched microfluidic channel for the promotion of axonal growth performancehttps://micronanorobotics.github.io/MNRLab.github.io/zh/publication/ja-3/Mon, 01 Jan 2024 00:00:00 +0000https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/ja-3/<h2 id="source-record">Source record</h2> <p>Liu Mmenghua, Wu Anping, Liu Jiaxin, Huang Hen-Wei, Li Yang, Shi Qing, Huang Qiang, Wang Huaping. Arched microfluidic channel for the promotion of axonal growth performance. iScience. 27(10):110885. Sep 2024; DOI: 10.1016/j.isci.2024.110885. (中科院综合期刊2区,JCR 1区) [JIF:4.6][Google学术引用:0] [SCI他引:暂无] (收录号:WOS:001317353900001)</p>Optimization of the Dielectric Layer Parameters through Coupled Numerical Analysis to Enhance Droplet and Particle Manipulation in Digital Microfluidic Chipshttps://micronanorobotics.github.io/MNRLab.github.io/zh/publication/ja-1/Mon, 01 Jan 2024 00:00:00 +0000https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/ja-1/<h2 id="source-record">Source record</h2> <p>Yanfeng Zhao, Menghua Liu, Xinyi Dong, Jiaxin Liu, Hen-Wei Huang, Qing Shi, Qiang Huang, Huaping Wang*. Optimization of the Dielectric Layer Parameters through Coupled Numerical Analysis to Enhance Droplet and Particle Manipulation in Digital Microfluidic Chips[J],Applied Physics Letters. vol.125 no.16.oct 2024, DOI:10.1063/5.0225853, 2024. (中科院 物理应用2区,JCR 2区) [JIF:3.5][Google学术引用:0] [SCI他引:暂无] (收录号:001337010300009)</p>TPP-Based Microfluidic Chip Design and Fabrication Method for Optimized Nerve Cells Directed Growthhttps://micronanorobotics.github.io/MNRLab.github.io/zh/publication/ja-8/Mon, 01 Jan 2024 00:00:00 +0000https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/ja-8/<h2 id="source-record">Source record</h2> <p>Liu Menghua, Wu Anping, Liu Jiaxin, Zhao Yanfeng, Dong Xinyi, Sun Tao, Shi Qing, WangHuaping* &ldquo;TPP-Based Microfluidic Chip Design and Fabrication Method for Optimized Nerve Cells Directed Growth&rdquo;, Cyborg and Bionic Systems, vol. 2024, May. 2024.(DOI:10.34133/cbsystems.0095) (JCR 1区,高起点新期刊论文,高校认定重要期刊)[JIF:10.5] [Google学术引用:0] [SCI他引:暂无] (无收录号)</p>Development of an in vitro perfusable neural interface model for sequential connection of nerve cellshttps://micronanorobotics.github.io/MNRLab.github.io/zh/publication/conference-2022-development-of-an-in-vitro-perfusable-neural-interface-model-for-seque/Sat, 01 Jan 2022 00:00:00 +0000https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/conference-2022-development-of-an-in-vitro-perfusable-neural-interface-model-for-seque/<h2 id="source-record">Source record</h2> <p>Menghua Liu, Huaping Wang, Qing Shi, Yaozhen Hou, Jiaxin Liu, Tao Sun, Qiang Huang, Toshio Fukuda, “Development of an in vitro perfusable neural interface model for sequential connection of nerve cells”, 2022 IEEE International Conference on Cyborg and Bionic Systems (CBS), pp. 122-127, Wuhan, China, 2023.(DOI: 10.1109/CBS55922.2023.10115337)(收录号:WOS:000995252700022)</p>POMDP-Based Real-Time Path Planning for Manipulation of Multiple Microparticles via Optoelectronic Tweezershttps://micronanorobotics.github.io/MNRLab.github.io/zh/publication/journal-2022-pomdp-based-real-time-path-planning-for-manipulation-of-multiple-micro/Sat, 01 Jan 2022 00:00:00 +0000https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/journal-2022-pomdp-based-real-time-path-planning-for-manipulation-of-multiple-micro/<h2 id="source-record">Source record</h2> <p>Liu Jiaxin, Wang Huaping*, Liu Menghua, Zhao Ran, Zhao Yanfeng, Sun Tao, Shi Qing, &lsquo;&lsquo;POMDP-Based Real-Time Path Planning for Manipulation of Multiple Microparticles via Optoelectronic Tweezers&rsquo;&rsquo;, Cyborg and Bionic Systems, vol. 2022, Nov. 2022.(DOI:10.34133/2022/9890607) (JCR 1区,高起点新期刊论文,高校认定重要期刊)[JIF:10.5] [Google学术引用:7] [SCI他引:6] (无收录号)</p>