https://micronanorobotics.github.io/MNRLab.github.io/zh/author/paolo-dario/Paolo DarioHugo Blox Builder (https://hugoblox.com)zh-cnMon, 01 Jan 2024 00:00:00 +0000https://micronanorobotics.github.io/MNRLab.github.io/media/icon_hu_b75d732ddc2eff0c.pnghttps://micronanorobotics.github.io/MNRLab.github.io/zh/author/paolo-dario/https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/journal-2024-template-based-fabrication-of-spatially-organized-3d-bioactive-constru/Mon, 01 Jan 2024 00:00:00 +0000https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/journal-2024-template-based-fabrication-of-spatially-organized-3d-bioactive-constru/<h2 id="source-record">Source record</h2> <p>Sun Tao#, Yao Yibing#, Shi Qing*, Wang Huaping, Paolo Dario, Sun Junzhong, Huang Qiang, Toshio Fukuda, Template-based fabrication of spatially organized 3D bioactive constructs using magnetic low-concentration gelation methacrylate (GelMA) microfibers; Soft Matter;16:3902-3913. (中科院化学3区，JCR 2区) [JIF:2.9] [Google学术引用:4] [SCI他引:4] DOI:10.1039/c9sm01945f（收录号：WOS:000530499300024）</p>https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/journal-2020-permeable-hollow-3d-tissue-like-constructs-engineered-by-on-chip-hydro/Wed, 01 Jan 2020 00:00:00 +0000https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/journal-2020-permeable-hollow-3d-tissue-like-constructs-engineered-by-on-chip-hydro/<h2 id="source-record">Source record</h2> <p>Cui Juan, Wang Huaping*, Shi Qing, Pietro Ferraro, Sun Tao, Paolo Dario, Huang Qiang, Fukuda Toshio, “Permeable Hollow 3D Tissue-Like Constructs Engineered by On-Chip Hydrodynamic-Driven Assembly of Multicellular Hierarchical Micromodules”, Acta Biomaterialia, vol. 113, pp. 328-338, Sep. 2020.(DOI:10.1016/j.actbio.2020.06.010) (中科院工程技术1区，JCR 1区) [JIF:9.4] [Google学术引用:14] [SCI他引:10]（DOI：10.1016/j.actbio.2020.06.010，收录号：WOS:000558174200023）</p>https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/conference-2019-automated-sorting-of-rare-cells-based-on-autofocusing-visual-feedback/Tue, 01 Jan 2019 00:00:00 +0000https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/conference-2019-automated-sorting-of-rare-cells-based-on-autofocusing-visual-feedback/<h2 id="source-record">Source record</h2> <p>Kailun Bai, Huaping Wang, Qing Shi, Zhiqiang Zheng, Juan Cui, Tao Sun, Qiang Huang, Paolo Dario, Toshio Fukuda， “Automated Sorting of Rare Cells Based on Autofocusing Visual Feedback in Fluorescence Microscopy”，IEEE/RSJ International Conference on Intelligent Robots and Systems, pp. 1567-1572, Macau, China,,03-08 November 2019. DOI：10.1109/iros40897.2019.8968207，WOS:000544658401081</p>https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/journal-2019-three-dimensional-autofocusing-visual-feedback-for-automated-rare-cell/Tue, 01 Jan 2019 00:00:00 +0000https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/journal-2019-three-dimensional-autofocusing-visual-feedback-for-automated-rare-cell/<h2 id="source-record">Source record</h2> <p>Wang Huaping*, Bai Kailun, Cui Juan, Shi Qing, Sun Tao, Huang Qiang, Dario Paolo, Fukuda Toshio, “Three-Dimensional Autofocusing Visual Feedback for Automated Rare Cells Sorting in Fluorescence Microscopy”, Micromachines, vol. 10(9), Aug. 27, 2019. (中科院工程技术3区，JCR 2区) [JIF:3.0] [Google学术引用:6] [SCI他引:5] DOI：10.3390/mi10090567，</p>https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/journal-2016-high-speed-bioassembly-of-cellular-microstructures-with-force-characte/Fri, 01 Jan 2016 00:00:00 +0000https://micronanorobotics.github.io/MNRLab.github.io/zh/publication/journal-2016-high-speed-bioassembly-of-cellular-microstructures-with-force-characte/<h2 id="source-record">Source record</h2> <p>Wang Huaping*, Shi Qing, Sun Tao, Nakajima Masahiro, Huang Qiang, Paolo Dario, Fukuda Toshio, P. Dario, T. Fukuda, “High-Speed Bioassembly of Cellular Microstructures with Force Characterization for Repeating Single-Step Contact Manipulation”, IEEE Robotics and Automation Letters, vol. 1, Jul. 1 2016.（中科院计算机科学2区，JCR 2区）[JIF:4.6] [Google学术引用:3] [SCI他引:暂无]</p>