夏焕明教授





目前就职： 机械工程学院
导师类型/类别：
个人主页：








10 访问





联系电话：
电子邮箱： hmxia@njust.edu.cn
邮编： 210094
工作单位：
通讯地址： 南京市玄武区孝陵卫200号




个人信息
指导学科
社会、学会及学术
出版专著和教材
科研创新
教学活动
发表论文
指导学生情况
其他信息
获奖、荣誉称号



教育经历
南京航空航天大学 （本科，硕士）
新加坡国立大学 （博士）


工作经历
2007年-2014年 新加坡科技研究局制造技术研究院 研究员
2015年-至今 南京理工大学机械工程学院仪器科学与技术系 教授



指导学科
学科专业(主) 080401|精密仪器及机械 招生类别 博、硕士 所在学院 机械工程学院
研究方向 微流控，芯片实验室，微型反应器




社会、学会及学术兼职
《Microfluidics and Nanofluidics》，《Biomicrofluidics》，《Journal of Micromechanics and Microengineering》，《Chemical Engineering Journal》，《ChemicalEngineering and Processing: Process Intensification》等十多种期刊审稿人


出版专著和教材


科研创新
专利申请

H. M. Xia, Z. P. Wang, W. Wang, Microfluidic Agitator Devices and Methods for Agitation of a Fluid, US Patent No.: US ** B2, Jun 14, 2016.
H.M. Xia, Z. P. Wang, Microfluidic Mixing Apparatus and Method, US Patent No.: US ** B2, Jul 19, 2016.
H. M. Xia, Z. P. Wang, Microfluidic mixing apparatus and method, Singapore Patent No. 181855, 2009.
H. M. Xia, Z. P. Wang, W. Wang, A Novel Microfluidic Agitation Method and Apparatus，Singapore Patent Application No.: -9.
H. M. Xia, Z. P. Wang, W. Fan, Z. F. Wang, A microfluidic device for altering a fluid flow and a microfluidic system including the microfluidic device, WO/2012/036627; PCT application No.: PCT/SG2010/000346, 2009.



科研项目
科研项目
装备发展部，××专项子专题，140××××××，××制备技术，2018/09-2020/09
某产品微反应制备工艺技术研究（I &II）, 工业项目，2018/9-2020/12
自然科学基金面上项目，**，基于水弹性和气动弹性效应的微流体操控机理和方法研究，2016/1-2019/12
南京理工大学自主科研专项计划项目，，基于振荡流的液滴微流控技术研究，2015/11-2018/10

主要承担和参加的研究项目（SIMTech）
与南洋理工大学联合研究项目，磁性微流体扩散现象研究（Magnetofluidic spreading），2013/10-2014/12
与新加坡高性能计算研究院联合研究项目，新型微流体混合器和振荡器工作机理及设计优化研究，2013/1-2013/12
工业项目，一种便携式床边检测系统的开发，2013/12-2014/12
与新加坡国立大学联合研究项目，基于芯片实验室技术的人类鼻上皮干细胞研究，2012/8-2014/3
与南洋理工大学联合研究项目，表面声波（SAW）微流控技术研究，2012/8-2016/12
工业项目，面向工业实际应用的关键微流控技术研究，2011/11-2013/2
新加坡制造技术研究院研究项目，一种微流体振荡器的设计、表征及应用，2010/7-2011/6
新加坡制造技术研究院研究项目，多种微型混合器的设计、实现及应用研究，2009/5-2010/4




教学活动
新生研讨课《芯片实验室技术漫谈与器件制作》
研究生专题研究课《微系统技术》


发表论文
Journal
1. X. Zhou, C. Chen, P. Zhu, S. F. Zhao, J. Y. Shi,F. Yan, R. Q. Shen, H. M. Xia, Microreaction system combining chaotic micromixing with fast mixing and particle growth in liquid-segmented flow for the synthesis of hazardous ionic materials, Energetic Materials Frontiers, https://doi.org/10.1016/j.enmf.2020.11.001, 2020.
2. J. Shi, P. Zhu, S. F. Zhao, R. Q. Shen, H. M. Xia, H. Jiang, S. Xu, Microfluidic strategy for rapid and high-quality control of crystal morphology of explosives,Reaction Chemistry & Engineering，5(6), 1093-1103, 2020.
3. J. W. Wu, H. M. Xia^*, W. Wang, Y. Foo, Z. P. Wang, H. Du, A droplet platform capable of handling dissimilar liquids and its application for separation of bacteria from blood. Biomicrofluidics, 14, 034102, 2020.
4. C. Chen,S. F. Zhao, P. Zhu, J. Y. Shi, F. Yan, H. M. Xia,R.Q. Shen,Improvement of silver azide crystal morphology and detonation behavior by fast mixing using a microreaction system with integrated static micro mixer, Reaction Chemistry & Engineering, 5, 154-162, 2020.
5. S. F. Zhao, C. Chen, P. Zhu, H. M. Xia, J. Shi, F. Yan, R. Q. Shen, Passive micromixer platform for size- and shape-controllable preparation of ultrafine HNS, Industrial & Engineering Chemistry Research, 58, 36, 16709-16718, 2019.
6. J. W. Wu, H. M. Xia^*,Y. Y. Zhang, S. F. Zhao, P. Zhu, Z. P. Wang,An efficient micromixer combining oscillatory flow and divergent circular chambers, Microsystem Technologies, 25, 2741-2750, 2019.
7. Y. Y. Zhang, H. M. Xia,^*J. W. Wu, J. Zhang, Z. P. Wang, Synchronized generation and coalescence of largely dissimilar microdroplets governed by pulsating continuous-phase flow,Applied Physics Letters, 114, 073701, 2019.
8. Y. H. Piao, X. B. Wang, H. M. Xia, W. Q. Wang, Digital microfluidic platform for automated detection of human chorionic gonadotropin, Microfluidics and Nanofluidics,23:1, 2019.
9. 沈瑞琪, 朱朋, 叶迎华, 夏焕明, 赵双飞, 陈聪, 杨用, 危险化学物质的微流控合成与制备技术, 科技导报, 16(16), 46-52, 2018.
10. S. F. Zhao, J. W. Wu, P. Zhu, H. M. Xia, C. Chen, R. Q. Shen, Microfluidic platform for preparation and screening of narrow size-distributed nanoscale explosives and supermixed composite explosives, Industrial & Engineering Chemistry Research,57, 13191-13204, 2018.
11. S. F. Zhao, N. Zhou, P. Zhu, H. M. Xia, Y. Yang, R. Q. Shen, Y. H. Ye, Optimization synthesis of morphologically homogeneous and rod-like barium trinitroresorcinate produced by segmented flow, Journal of Chemical Engineering of Japan,51(6), 524-529, 2018.
12. J. W. Wu, H. M. Xia^*, Y. Y. Zhang, P. Zhu, Microfluidic mixing through oscillatory transverse perturbations, Modern Physics letters B, 32 (12-13), **, 2018.
13.J. Zhang, D. Yuan, Q. Zhao, S. Yan, S.Y. Tang, S. H. Tan, J. Guo, H. M. Xia, et al., Tunable particle separation in a hybrid dielectrophoresis (DEP)-inertial microfluidic device, Sensors and Actuators B: Chemical,267, 14-25, 2018.
14. S.F. Zhao, F. Yan, P. Zhu, Y. Yang, H. M. Xia, R. Q. Shen, Y. H. Ye, Micro-segmented flow technology applied for synthesis and shape control of lead styphnate micro-particles, Propellants, Explosives, Pyrotechnics, 43, 286-293, 2018.
15. H. M. Xia^*, J. W. Wu, Z. P. Wang, A comparative discussion of different designs of passive micromixers: specific sensitivities of mixing efficiency on Reynolds numbers and fluid properties, Microsystem Technologies, 24(2), 1253-1263, 2018.
16. H. M. Xia^*, X. Jin, Y. Y. Zhang, J. W. Wu, J. Zhang, Z. P. Wang, Integrated aeroealstic vibrator for fluid mixing in open microwells,Journal of Micromechanics and Microengineering,28, 017001, 2018.
17. J. Zhang, D. Yuan, R. Sluyter, S. Yan, Q. Zhao. H.M. Xia, et al., High-through separation of white blood cells from whole blood using inertial microfluidics,IEEE Transactions on Biomedical Circuits and Systems,11(6),1422-1430, 2017.
18. H. M. Xia^*, J. W. Wu, Z. P. Wang, The negative-differential-resistance (NDR) mechanism of a hydroelastic microfluidic oscillator, Journal of Micromechanics and Microengineering, 27, 075001, 2017.
19. L. Zhu,H. M. Xia, Z.F. Wang, E. L. S. Fong, J. J. Fan , W. H. Tong, Y. P. D. Seah, W. A. Zhang, Q.S. Li, and H.Yu, Vertical-flow bioreactor array compacts hepatocytes for enhanced polarity and functions,Lab Chip, 16, 3898-3908, 2016.
20. N. Zhou, P. Zhu, Y. Rong, H. M. Xia,R. Q. Shen, Y. H. Ye, S. L. Lv, Microfluidic synthesis of size-controlled and morphologically homogeneous lead trinitroresorcinate produced by segmented flow, Propellants, Explosives, Pyrotechnics, 41, 899-905, 2016.
21. S. Wan, H. M. Xia, K. Pankaj, Numerical analysis and characterization of a Wankel pump as a miniaturized mixer, Journal of Micromechanics and Microengineering,25, 084001, 2015.
22. R. Kishor, Y.P Seah, Y.J Zheng, H.M Xia, Z.F. Wang, H.J. Lu, T.T. Lim,Characterization of an acoustically coupled multilayered microfluidic platform on SAW substrate using mixing phenomena, Sensors & Actuators A, 233, 360-367, 2015.
23. H. M. Xia^*, Y. P. Seah, Y. C. Liu, W. Wang, Alicia G. G. Toh, Z. P. Wang, Anti-solvent precipitation of solid-lipid nanoparticles using a microfluidic oscillator mixer, Microfluidics and Nanofluidics,19, 283-290, 2015. WOS:004
24. Z. M. Wang, V. B. Varma, H. M. Xia, Z. P. Wang, R. V. Ramanujan, Spreading of a ferrofluid core in three-stream micromixer channels, Physics of Fluids, 27, 052004, 2015.
25. Z. Z. Chong, W. Jun Sim, Z. T. Yeo, K. H. Li, S. H. Ng, H. M. Xia,T. N. Wong, N. H. Loh, S. B. Tor, S. H. Tan, N.-T. Nguyen, Elastic magnetic membrane for improved mixing inmicrowells, Micro and Nanosystems, 6, 232-236, 2014.
26. H. M. Xia, Z. P. Wang, V. B. Nguyen, S. H. Ng, W. Wang, F. Y. Leong, D. V. Le, Analyzing the transition pressure and viscosity limit of a hydroelastic microfluidic oscillator, Applied Physics Letters, 104, 024101, 2014.
27. W. Wang, Y. Yan, C. W. Li, H. M. Xia, S. S. Chao, D. Y. Wang, Z. P. Wang, Live Human Nasal Epithelial Cells (hNECs) On Chip for In Vitro Testing of Gaseous Formaldehyde Toxicity via Airway Delivery, Lab Chip, 14, 677-680, 2014.
28. H. M. Xia, Z. P. Wang, W. Wang, W. Fan, A. Wijaya, Z. F. Wang, “Aeroelasticity-based fluid agitation for lab-on-chips”, Lab Chip, 13,1619-1625, 2013.
29. H. M. Xia,Z. P. Wang, S. Y. M. Wan, F. F. Yin, “Numerical study on microstructured reactor with chaotic heat and mass transfer and its potential application for exothermic process”, Chemical Engineering Research and Design, 90(11), 1719-1726, 2012.
30. H. M. Xia, Z. P. Wang, F. Wei, A. Wijaya, W. Wang, Z. F. Wang, Converting steady laminar flow to oscillatory flow through a hydro-elasticity approach at micro scales, Lab Chip,12, 60-64, 2012.
31. Z. K. Wang, H. Y. Zheng, H. M. Xia, Femtosecond laser-induced modification of surface wettability of PMMA for fluid separation in microchannels, Microfluidics and Nanofluidics, 10, 225-229, 2011.
32.H. M. Xia, Z. P. Wang, Y. X. Koh, K. T. May, A microfluidic mixer with self-excited ‘turbulent’ fluid motion for wide viscosity ratio applications, Lab Chip, 10, 1712-1716, 2010.
33. H. M. Xia, C. Shu, Y. T. Chew and Z. P. Wang, Approximate mapping method for prediction of chaotic mixing in spatial-periodic microchannel”, Chemical Engineering Research and Design, 88 (10), 1419-1426, 2010.
34. L. P. Yeo, S. H. Ng, Z. F. Wang, H. M. Xia, Z. P. Wang, V. S. Thang, Z. W. Zhong, N. F. de Rooij, Investigation of hot roller embossing for microfluidic devices, Journal of Micromechanics and Microengineering,20, 015017, 2010.
35. H. M. Xia, C. Shu, S. Wan, Y. T, Chew, Influence of Reynolds number on chaotic mixing in spatially periodic micromixer and its characterization using dynamical system techniques, Journal of Micromechanics and Microengineering,16, 53-61, 2006.
36. H. M. Xia, S. Wan, C. Shu, Y. T. Chew, Chaotic micromixers using two-layer crossing channels to exhibit fast mixing at low Reynolds numbers, Lab Chip,748-755, 2005.
37. H. M. Xia, C. Shu, S. Wan, Y. T. Chew, Numerical and experimental observation of chaotic mixing in microfluidic mixer, Journal of Visualization, 8,291, 2005.
38. Y. T. Chew, H. M. Xia, C. Shu, S. Wan, Techniques to enhance fluid micro-mixing and chaotic micromixers, Modern Physics Letters B, 19, 1567-1570, 2005.
39. S. C. Luo, H. M. Xia, Parallel vortex shedding at Re = O(10^4) – a transverse control cylinder technique approach, Journal of Fluid Mechanics, 541,143-165, 2005.
Conference/workshop/seminar
1. 分组报告，吴嘉炜，夏焕明，基于液滴充电的微流控液滴融合技术及其应用，第三届微流控技术应用创新论坛，厦门，12月7-9日，2019.
2. 分组报告，张言引，夏焕明，脉冲流作用下的微液滴生成和操控技术研究，第三届微流控技术应用创新论坛，厦门，12月7-9日，2019.
3. 夏焕明，微流体负阻振荡和工程应用，中国科学技术大学，2018年12月8日.
4. J. W. Wu, H. M. Xia, P. Zhu, Z. P. Wang, Mixing enhancement through improved fluid segmentation and rotation coupled with oscillatory flow, The 7^thinternational symposium on physics of fluids, Guiyang China, 12-15 June, 2017.
5. 夏焕明，吴嘉炜，王志平，一种新型微流体振荡器及其应用，第九届全国流体力学学术会议，南京，10月20-23日，2016.
6. H. M. Xia, Z. P. Wang, Some recent progress on elasticity-basednonlinear microfluidics, Lab-on-a-Chip Asia 2016, Singapore 5-6 Dec, 2016.
7. L. Zhu, H. M. Xia, Z. F. Wang, Q. S. Li, Y. P. D. Seah, W. Zhang, J. Fan, H. Yu, Scalable compaction bioreactor to enhance hepatocyte polarity and functions, The 19th International Conference onMiniaturized Systems for Chemistry and Life Sciences(MicroTAS 2015), 624-626, Gyeongju, Korea, 25-29 Oct., 2015.
8. H. M. Xia, Z. P. Wang, Design, modeling and potential applications of a microfluidic oscillator, The sixth international symposium on physics of fluids, Xining China, 6-9 July, 2015.
9. R. G. Wu, Z. P. Wang, H. M. Xia, W. Fan, J. Salmon and J. Ohalloran, Microfluidics based cassette for Point-of-care molecular diagnosis, Lab-on-a-Chip Asia, Singapore, 20-21 Nov., 2014.
10.Charles W. Wang, Z.P. Wang, H.M. Xia, T.L. Ng, C.C. Zhang, B.Liu, Y.C. Soh, High throughput droplet generation for bio-encapsulation, Lab-on-a-Chip Asia, Singapore, 20-21 Nov., 2014.
11. H. M. Xia, P. Khuntontong, Y. C. Soh, C. J. Kong, W. Wang, Z. P. Wang, Microfluidic agitator mixer and its application, Lab-on-a-Chip Asia, Singapore, 20-21 Nov., 2014.
12. H. M. Xia, R. G. Wu, Y. P. Seah,W. Wang, Z. P. Wang, FIV-based microfluidic mixing and its potential applications, Lab-on-a-chip & Microarray world congress, San Diego, USA, 18-19 Sep. 2014.
13. W. Wang, Y. Yan, H.M. Xia,C.W. Li, Y.Y. Li, D.Y. Wang, and Z. P. Wang, Single cell trapping, monitoring and retrieving of functional nasal epithelial cells for toxicological/pharmacological studies, The 18th International Conference onMiniaturized Systems for Chemistry and Life Sciences(MicroTAS 2013), San Antonio Texa, USA, 26-30 Oct., 2014.
14.W. Wang, Y. Yan, C. W. Li, D. Y. Wang, H. M. Xia, Z. P. Wang, Live human upper airway on-chip for in vitro testing of gaseous formaldehyde toxicity via airway delivery, The 17th International Conference onMiniaturized Systems for Chemistry and Life Sciences(MicroTAS 2013), Freiburg, Germany, 27-31 Oct., 2013.
15.H . M. Xia, Z. P. Wang, Y. L. Tan, A. Wijaya, C. Yang, Fluid mixing enhancement in miniaturized fluidic systems through flow induced vibration, 5^thInternational Symposium on Microchemistry and Microsystems (ISMM), Xiamen, China, 16^thto 19^thMay, 2013.
16. Rahul K., Y. Zheng, Z. F. Wang, S. Daphne, H. Lu, H. M. Xia, Frequency and amplitude effects on microdroplet displacement by surface acoustic waves, 5^thInternational Symposium on Microchemistry and Microsystems (ISMM), Xiamen, China, 16^thto 19^thMay, 2013.
17. H. M. Xia, From purely diffusive mixing to rapid turbulent-like mixing in microfluidics, City University of Hong Kong, 16 May, 2013.
18. H. M. Xia, Dynamic aero/hydro-elasticity and its application in lab-on-a-chip, SIMTech Microfluidics Seminar, Singapore, 06 March, 2013.
19.H. M. Xia, Z. P. Wang, S.Y.M. Wan, F. F. Yin, Mixing and heat transfer enhancement in meso-/micro-fluidic devices for potential chemical applications, 7^thSingapore International Chemistry Conference (SICC-7) in conjunction with the 12^thAsia-Pacific International Symposium on Microscale Separation and Analysis (APCE 2012), Singapore, 16^thto 19^thDec., 2012.
20. Y. T. Chew, H. M. Xia, Z. P. Wang, C. Shu, S. Y. M. Wan, Passive fluid mixing for microfluidics, Keynote Lecture presented at the International conference on mechanical engineering research (ICMER),Kuantan, Pahang, Malaysia, 5-7 December, 2011.
21. H. M. Xia, Fluid manipulations in microfluidic devices, University of Science and Technology of China, 25 Oct., 2011.
22. H. M. Xia, Microfluidic mixer designs based on chaotic advection and flow instabilities, Swiss-Singapore Workshop on Microfluidic Manufacturing and Laboratory Automation, Singapore, Oct. 22, 2009.
23. H. M. Xia, C. Shu, Y. T. Chew, S. Wan, Elimination of the isolated/ stable region in 3D chaotic micromixer through reorientation process, AIChE Annual Meeting, San Francisco, CA, November 2006.
24.Y. T. Chew, H. M. Xia, C. Shu, Fluid micro mixing technology and its applications for biological and chemical processes, IFMBE Proceedings.3^rdKuala Lumpur International Conference on Biomedical Engineering, Kuala Lumpur, Malaysia, vol. 15, pp. 16-20, December 2006.
25. H. M. Xia, Y. T. Chew, C. Shu and S. Y. M. Wan, Rapid chaotic micro-mixer using the stretching and folding processes, The 8^thAsian Symposium on Visualization, Chiangmai, Thailand. pp. 88:1-6, May 23-26, 2005.



指导学生情况


其他信息


获奖、荣誉称号
2015: 江苏****
2010: SIMTech Best Research Project Award

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