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6. ¹ú¼Ò×ÔÈ»¿Æѧ»ù½ð£¬ÇàÄê¿Æѧ»ù½ðÏîÄ¿£¬61604042£¬¼¯³É΢Á÷¿ØPM2.5ÖÐÖؽðÊô¼ì²â¼°µ¥Ï¸°û»ùÒò¶¾ÐÔÑо¿£¬2017-01ÖÁ2019-12£¬½áÌ⣬²Î¼Ó£»
7. ¸£½¨Ê¡×ÔÈ»¿Æѧ»ù½ð£¬ÃæÉÏ»ù½ðÏîÄ¿£¬2017J01691£¬¹¤Òµ»úÆ÷ÈËÈáÐÔ»úе±ÛµÄ¹¤×÷¿Õ¼äÃܶȺ¯Êý¹¹½¨¼°ÄæÔ˶¯Ñ§Ñо¿£¬2016-04ÖÁ2018-04£¬½áÌ⣬Ö÷³Ö£»
8. ¸£½¨Ê¡½ÌÓýÌü»ù½ð£¬ÇàÄê»ù½ðÏîÄ¿£¬JAT160055£¬»ùÓÚÒƶ¯»úе±ÛµÄ´«¸ÐÆ÷ÐÅÏ¢ÈÚºÏËã·¨Ñо¿£¬2016-04ÖÁ2018-04£¬½áÌ⣬Ö÷³Ö£»
9. ¸£ÖÝ´óѧ£¬Ð£È˲Żù½ð£¬XRC-1583£¬ÈßÓà»úе±ÛµÄÄæÔ˶¯Ñ§Ëã·¨Ñо¿£¬2015-12ÖÁ2017-12£¬½áÌ⣬Ö÷³Ö£»
10. ¹ú¼Ò×ÔÈ»¿Æѧ»ù½ð£¬ÇàÄê¿Æѧ»ù½ðÏîÄ¿£¬61403107£¬»ùÓÚÄ¿±êÈÎÎñÐéÄâÄ£Ð͵ÄÊÖÊõ»úÆ÷ÈËЧÄÜÓÅ»¯Ñо¿£¬2015-01ÖÁ2017-12£¬½áÌ⣬²Î¼Ó£»
11. US National Science Foundation, IIS-1162095, The National Robotics Initiative and The Robust Intelligence Cluster in the CISE/IIS£¬2014ÖÁ2015£¬½áÌ⣬²Î¼Ó£»
12. ¹ú¼Ò×ÔÈ»¿Æѧ»ù½ð£¬ÃæÉÏ»ù½ðÏîÄ¿£¬61273358£¬»ùÓÚÈíÓ²¹Ç×éÖ¯ÉúÎïÁ¦Ñ§ÌØÐԵĻúÆ÷È˸¨Öú¾±×µ¼äÅÌÖû»ÊÖÊõÄ¥Ï÷»úÀí£¬2013-01ÖÁ2016-12£¬½áÌ⣬²Î¼Ó£»
13. Öйúº½Ìì¿Æ¹¤¼¯ÍÅ£¬ÖÇ»ÛÅ©Òµ»úÆ÷È˽ṹÉè¼Æ¼°ÏµÍ³Ñз¢£¬ÔÚÑУ¬Ö÷³Ö
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1. Li, J., Wan, Q., Dong, H*,Lin, S. (2022). Computational study of CO2 methanation over two-dimensional molybdenum carbide catalysts. International Journal of Hydrogen Energy. (SCI Q1 TOPÆÚ¿¯)
2. Dong, H., Hu, B., Zhang, W., Xie, W., Mo, J., Sun, H., & Shang, J. (2022). Robotic-assisted automated in situ bioprinting. International Journal of Bioprinting, 9(1).(SCI Q1)
3. Chao Jia, Qingtuo He, Jianming Xiao and Hui Dong*. Design and Analysis of Novel Non-Involute Cylindrical Gears with a Curved Path of Contact, Mathematics 2022, 10, 4290.(SCI Q1)
4. Sun Hao, Xiong Linghu, Huang Yi , Chen Xinkai, Yu Yongjian, Ye Shaozhen, Dong Hui*, Jia Yuan, Zhang Wenwei. AI-aided on-chip nucleic acid assay for smart diagnosis of infectious disease. Fundamental Research, 2022,2(3):476-48. (¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðίÖ÷°ìÆÚ¿¯)
5. Dong Hui, Yang L, Li J, Sun H, Yao L. Flexible Design of the Connecting Plate in Pneumatic Soft Manipulators. Applied Sciences. 2022; 12(14):7224.(SCI Q2)
6. Dong Hui*, Chen Li, Wentao Wu, Ligang Yao, Hao Sun*. A novel algorithm by combining nonlinear workspace partition with neural networks for solving the inverse kinematics problem of redundant manipulators, Mechanical Sciences, 2021, 12: 259-267.£¨SCI Q3£©
7. Dong Hui, Du, Zhijiang, Chirikjian Gregory S.*.Workspace density and inverse kinematics for planar serial revolute manipulators, Mechanism and Machine Theory, 2013, 70: 508-522. (SCI Q1 TOPÆÚ¿¯)
8. Dong Hui, Kim, Jin Seob, Chirikjian Gregory S.*. Computational Analysis of SAXS Data Acquisition , Journal of Computational Biology, 2015, 22(9): 787-805. (SCI Q2)
9. Du zhijiang, Dong Hui*. Optimal dimension of redundant manipulator using the workspace density function, Proceedings of the Institution of Mechanical Engineers, 2016, 230(11): 1787-1794. (SCI Q2)
10. Dong Hui, Du Zhijiang. Obstacle Avoidance Path Planning of Planar Redundant Manipulators using Workspace Density. International Journal of Advance Robotic Systems, 2014,12:1-10. (SCI Q2)
11. Sun Hao, Jia Yuan, Dong Hui, Fan Longxiang. Graphene oxide nanosheets coupled with paper microfluidics for enhanced on-site airborne trace metal detection. Microsystems and Nanoengineering, 2019. (Nature³ö°æ¼¯ÍÅSCI Q1 TOPÆÚ¿¯)
12. Sun Hao, Jia Yuan, Dong Hui, et al. Combining additive manufacturing with microfluidics: an emerging method for developing novel organs-on-chips. Current Opinion in Chemical Engineering, 2020, 28: 1-9.(SCI Q1)
13. Jia Yuan, Sun Hao, Dong Hui, et al. Scalable and parallelized biochemical assays in paper devices integrated with a programmable binary valve matrix. Sensors and Actuators B: Chemical, 2020, 321: 128466. (SCI Q1 TOPÆÚ¿¯)
14. Sun Hao, Jia Yuan, Dong Hui, et al. Multiplex quantification of metals in airborne particulate matter via smartphone and paper-based microfluidics. Analytica Chimica Acta, 2018, 1044: 110-118. (SCI Q1 TOPÆÚ¿¯)
15. Jia Yuan, Dong Hui, Zheng J, et al. Portable detection of trace metals in airborne particulates and sediments via ¦ÌPADs and smartphone. Biomicrofluidics, 2017, 11(6): 064101. (SCI Q1)
16. ¬×ÚÐË,ËÕÓÀÉú,¶«»Ô*,ÀîØ·Ôö,ÕÔ¶°ÕÜ. »ùÓÚ×ãµ×Á¦·´À¡µÄõ׹ؽÚÖ÷±»¶¯¿µ¸´²ßÂÔ.»úе¹¤³Ìѧ±¨:1-10[2022-11-23].
17. Àî¾´ÒÇ,Ò¦Á¢¸Ù,¶«»Ô*. »ùÓÚÈý×é²âÁ¿Éþ½á¹¹µÄÈíÌå»úе±ÛÔ˶¯¼ì²â[J]. Öйú»úе¹¤³Ì, 2021, 32(6):8.
18. Ò¦Á¢¸Ù,Àî¾´ÒÇ,¶«»Ô*. Æø¶¯ÈíÌå»úе±ÛÄ£¿é±ä¸Õ¶ÈÐÔÄÜ·ÖÎö, »úе¹¤³Ìѧ±¨,2020, 56(09): 36-44.
19. ¶«»Ô,¶ÅÖ¾½.»ùÓÚ¹¤×÷¿Õ¼äÃܶȺ¯ÊýµÄƽÃæÈßÓà»úÆ÷È˵ÄÄæÔ˶¯Ñ§Çó½âËã·¨. »úе¹¤³Ìѧ±¨, 2015, 51(17): 8-14.
20. ¶«»Ô,³Âöο,ËïºÆ,Ò¦Á¢¸Ù.»ùÓڸĽøYOLOv4ºÍͼÏñ´¦ÀíµÄÊß²ËÌïÔӲݼì²â.ͼѧѧ±¨,2022,43(04):559-569.
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1. ¶«»Ô,Áõ Ä,ËïºÆ. Èý×ÔÓɶÈÉßÐλúÆ÷ÈËÄ£¿é[P]. Öйú£ºN212421294U,2021-01-29.
2. ¶«»Ô,Áõ Ä,ËïºÆ. Èý×ÔÓɶÈÉßÐλúÆ÷ÈËÄ£¿éÓëÓ¦ÓøÃÄ£¿éµÄÉßÐλúÆ÷ÈË[P]. Öйú£ºCN111941407A,2020-11-17.
3. ¶«»Ô,Áõ Ä,ËïºÆ. ÉßÐαÛÈý×ÔÓɶÈÊÖÍó¹Ø½Ú[P]. Öйú£ºN211220700U,2020-08-11.
4. ¶«»Ô,Áõ Ä,ËïºÆ. ÉßÐαÛÈý×ÔÓɶÈÊÖÍó¹Ø½Ú¼°Ô˶¯·½·¨[P]. Öйú£ºCN110774277A,2020-02-11.
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6. ¶«»Ô,³Â¸Õ,ËïºÆ. ¿ÉÖع¹Ä£¿é»¯»úÆ÷ÈËÁ¬½Ó»ú¹¹[P]. Öйú£ºCN209224091U,2019-08-09.
7. ¶«»Ô,³Â¸Õ,ËïºÆ. Èý×ÔÓɶȿÉÖع¹Ä£¿é»¯»úÆ÷È˵¥Ôª½á¹¹[P]. Öйú£ºCN109352637A,2019-02-19.
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9. ¶«»Ô,³Â¸Õ,ËïºÆ. Á½×ÔÓɶȿÉÖع¹Ä£¿é»¯»úÆ÷È˵¥Ôª½á¹¹[P]. Öйú£ºCN109465814A,2019-03-15.
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14. ¶«»Ô,ÁÖ´ïÍû. Ò»ÖÖÇ·Çý¶¯¶þָץȡÊÖ[P]. Öйú£ºCN206855463U,2018-01-09.
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