教师名录

莫景文副教授博士生导师
所在院系:机械设计工程系
办公室:机械楼355
电话:
邮箱:jwmo@seu.edu.cn
个人简介

莫景文,副教授,博士生导师,中国图学学会数字孪生专业委员会委员,主持完成国家自然科学基金青年项目;主持完成江苏省自然科学基金青年项目,并且结题被评为优秀主持新型光源技术及装备教育部工程研究中心开放课题和企业研发项目5项近几年在Physical Review LettersSmallNanoscalePhysical Chemistry Chemical Physics、Physical Review E等国际学术刊物发表SCI论文20余篇,担任Nanotechnology and Precision Engineering青年编委,Nanomaterials的客座编辑,Physics of Fluids、Journal of Applied Physics、Journal of Physical Chemistry等专业学术期刊的审稿人。申请和授权发明专利十余项。指导本科生团队获第九届江苏省大学生机械创新设计大赛二等奖。

学习经历
工作经历

20169-201612月  香港科技大学bat365平台体育app官网,博士后

201612-至今     bat365平台体育app官网,副教授, 博士生导师


教授课程

热工基础、流体力学、机械制图

研究方向
微纳机电系统、微纳生物传感器、数字化设计仿真
审稿期刊

《Nanoscale》、《Journal of Applied Physics》、《Physical Review E》

学术兼职
获奖情况

2023年,bat365平台体育app官网第31届青年教师授课竞赛提名奖

2020年,主持的江苏省自然科学基金-青年项目获2020年度优秀结题项目


2018年,bat365平台体育app官网优秀班主任

2018年,bat365平台体育app官网微课竞赛二等奖

2016年,Best Presentation Award, The 20th Annual Conference of HKSTAM, Hong Kong


论文著作

期刊论文:

  1.  L. LiJ.W. Mo(co-first author), and Z.G. Li*, Nanofluidic diode for simple fluids without moving parts, Physical Review Letters, 115: 134503, 2015 (Editor’s Suggestion; Featured in Physics)

  2. J.W. Mo*, J.J. Sha, D.K. Li, Z.G. Li, and Y.F. Chen*, Fluid release pressure for nanochannels: The Young-Laplace equation using the effective contact angle, Nanoscale, 11: 8408, 2019

  3. J.W. Mo*, C. Wang, J.Y. Zeng, J.J. Sha, Z.G. Li, and Y.F. Chen*, Directional passive transport of nanodroplets on general axisymmetric surfaces, Physical Chemistry Chemical Physics, 24:9727, 2022 

  4. J.Y. Zeng, T. Zhang, G. Liang, J.W. Mo*, J. Zhu, L. Qin, X.J. Liu*, and Z.H. Ni*, A "turn off-on" fluorescent sensor for detection of Cr(VI) based on upconversion nanoparticles and nanoporphyrin, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 311:124002, 2024

  5.  J.Y. Zeng, X.Y. Wang, Y. Jia, J.W. Mo*, R.L. Sun, T.S. Wu, Q. Xu, and H. Jin, A fluorescent sensor for daunorubicin determination using 808 nm-excited upconversion nanoparticles, Journal of Inorganic and Organometallic Polymers and Materials, 31(7): 2868-2876, 2021

  6. J.W. Mo*, Y.H. Ding, N. Xiang, S. Zhu, J.Y. Zeng, K.D. Bi, J. Ma, J.J. Sha, and Y.F. Chen*, Fluid release pressure for micro-/nanoscale rectangular channels, Journal of Applied Physics, 127: 114302, 2020

  7. J.W. Mo*, S. Wang, J.Y. Zeng, and X. Ding, Aptamer-based upconversion fluorescence sensor for doxorubicin detection, Journal of Fluorescence, 33(5): 1897-1905, 2023

  8. J.W. Mo*, Y.H. Ding, S. Zhu, P. Kuang, L. Shen, N. Xiang*, J.J. Sha, and Y.F. Chen*, Passive microscopic fluidic diodes using asymmetric channels, AIP advances, 9: 085117, 2019

  9. J.W. Mo*and Heng Ban*Measurements and theoretical modeling of effective thermal conductivity of particle beds under compression in air and vacuumCase studies in thermal engineering, 10: 423, 2017

  10. J.W. Mo, C. Li, L. Li, J. Wang, and Z.G. Li*Passive nanofluidic diode using non-uniform nanochannelsPhysics of fluids, 28:580, 2016

  11. J.W. Mo, L. Li, J. Wang, and Z.G. Li*, Passive fluidic diode for simple fluids using nested nanochannel structures, Physical Review E, 93:033101, 2016

  12. J.W. Mo, L. Li, J. Zhou, D. Xu, B. Huang, and Z.G. Li*, Fluid infiltration pressure for hydrophobic nanochannels, Physical Review E, 90: 033022, 2015

  13. J.W. MoD. Garrett, and H. Ban*, Anisotropic effective thermal conductivity of particle beds under uniaxial compression, International Journal of Thermophysics, 36: 2621-2637, 2015

  14. Z. Fei, S. Zhang, J.W. Mo, H. Yi, S.Z. Zhang, H.Y. Yu, K.B. Lin, J.J. Sha*, and Y.F. Chen*, Ion concentration effect on nanoscale electrospray modes, Small, 16:2000397, 2020

  15. Z. Zhao, Y. Qiu, S. Ji, Y. Yang, C. Yang, J.W. Mo, and J. Zhu*Machine learning-assistedwearable sensing for high-sensitivity gesture recognition. Sensors andActuators A: Physical,  365: 114877, 2024

  16. Y. Wang, J.W. Mo, S. Luo, Y. Zhang, B. Huang, and Z.G. Li*, Effects of convex surface roughness on heterogeneous ice nucleation, AIP Advances, 14:055214, 2024

  17. J. Ma*, Q.Y. Zeng, L.J. Zhan, J.W. Mo, Y. Zhang, and Z.H. Ni, Power generation from salinity gradient by reverse electrodialysis in silicon nitride nanopores , Nano, 15(11):2050148, 2020

  18. L. Zhou, K. Li, Z. Li, P. He, K. Lin, J.W. Mo, and J. Ma*, Detection of DNA homopolymer with graphene nanopore, Journal of Vacuum Science & Technology B, 37:061809, 2019

  19. J. Zhou*J.W. Mo, C. Shao, and Z.G. Li, Effects of magnetized walls on the particle structure and the yield stress of magnetorheological fluids, Journal of Magnetism and Magnetic Materials, 389: 124-129, 2015

  20. L. Li, J.W. Mo, and Z.G. Li*, Flow and slip transition in nanochannels, Physical Review E, 90: 033003, 2014

  21. X. Yao, H. Li, S. Wang, W. Xu, J. Ma, and J.W. Mo*Electrically Facilitated Transport of Proteins through Glass Nanopores: Electroosmosis versus Electrophoresis, IEEE 18th International Conference on NEMS, 2023: 193-196 (EI)

  22. C. Wang, J. Sha, H. Yi, J.W. Mo* and J. Ma, Onset voltage for electrospray from nanopores, IEEE International Conference on Industrial Technology, 2022: 1-6 (EI)

  23. S. Wang, J.Y. Zeng, X. Yao, and J.W. Mo*An Nd3+-sensitized Upconversion Fluorescence Sensor Coupled with Microwell Device for the Ratiometric Detection of Doxorubicin,  IEEE 18th International Conference on NEMS, 2023: 170-173 (EI)

  24. H. Yan, P. Zhou, Z. Xu, Z. Chen, and J.W. Mo, CFD study on the flow characteristics in the filleted microchannels, Applied Mechanics and Materials, 103: 268-273, 2011 (EI)

  25. Q.Y. Zeng, J. Ma*J.W. Mo, Y. Zhang, Extracting salt energy difference with silicon nitride nanopore generator, 5th International Conference on Power and Renewable Energy, 2020, p165-169 (EI)



会议报告:

  1. J.W. Mo, J.J. Sha, Z.G. Li , and Y.F. Chen, Molecular dynamics simulation of fluid release from nanochannels, ICMFLOC, Beijing University of Technology, Beijing, 2018

  2. J.W. Mo, J.J. Sha, Y.F. Chen, and Z.G. Li, Molecular dynamics simulation of passive nanofluidic diode using non-uniform nanochannels, The 33rd ITCC International Thermal Conductivity Conference, Utah State University, USA, May 2017

  3. J.W. Mo, and Z.G. Li, Molecular dynamics simulation of passive fluidic diode for simple fluids, The 20thAnnual Conference of HKSTAM, HKUST, Hong Kong, Apr. 2016

  4. J.W. Mo, L. Li, and Z.G. Li, Fluid infiltration pressure for hydrophobic nanochannels, Poster Session Presentation, Gordon Research Conference, Nano-Mechanical Interfaces, HKUST, Hong Kong, Jul. 2015

  5. J.W. Mo and Z.G. Li, On the fluid infiltration pressure for hydrophobic nanochannels, 19th Annual Conference of HKSTAM, HKUST, Hong Kong, Mar. 2015

  6. J.W. Mo, L. Li, and Z.G. Li, Molecular dynamics simulation of nanoscale fluid infiltration, ASME IMECE, Montreal, Canada, Nov. 2014

  7. J.W. Mo and Z.G. Li, Molecular dynamics simulation of nanoscale fluid infiltration into hydrophobic nanochannels, ASME 4th Micro/Nanoscale Heat & Mass Transfer, HKU, Hong Kong, Dec. 2013


科研项目

项目名称

项目类别

项目时间

工作类别

高效能微型电喷射推进技术基础理论研究

国家自然科学基金

2019.01-2021.12

主持

基于纳米静电喷射的微纳卫星驱动技术与装置的研究

江苏省自然科学基金

2017.07-2020.06

主持

江苏省双创博士

省部级人才项目

2018

主持

基于稀土上转换材料荧光传感器及其检测抗生素残留的研究
新型光源技术及装备教育部工程研究中心开放课题2022.01-2022.12主持

静电喷射推进器的研究

bat365平台体育app官网高水平论文项目

2017.03-2018.12

主持

《机械制图》双语课程教学改革探索

bat365平台体育app官网教学改革研究项目

2018.01-2019.12

主持


专利

1.      莫景文,王晨,曾嘉莹,沙菁㛃,魏志勇,陈云飞.自清洁防结冰复合表面装置:中国,ZL202110708419.2[P]. 2023-05-23.

2.      莫景文,梅林锋,曾嘉莹,魏志勇,陈云飞.纸基微流体二极管装置及可视化生物分子检测方法:中国,ZL202110696166.1[P]. 2022-11-04.

3.      莫景文,曾嘉莹,金辉,许茜,陈云飞,毕可东,申龙,陈科.一种基于上转换发光纳米材料的智能隐形眼镜及其制备方法:中国,ZL201911313548.0[P]. 2022-06-14.

4.      莫景文,申龙,曾嘉莹,陈云飞,毕可东;陈科.一种红外光激发可视化检测重金属离子的方法:中国,ZL201911313549.5[P]. 2022-06-10.

5.      莫景文,曾嘉莹,马建,许茜,毕可东,陈云飞.一种近红外光激发检测环丙沙星的方法:中国,ZL202110696752.6[P]. 2022-10-11.

6.      莫景文,丁耀寰,陈云飞,沙菁洁,倪中华,曾嘉莹.气体喷射与电喷射一体化混合驱动装置:中国,ZL201810722689.7 [P]. 2021-07-27.


莫景文 微纳机电系统、数字化设计仿真、微纳生物传感器
Tel:
Email:jwmo@seu.edu.cn
Add:
Personal Introduction

莫景文,副教授,博士生导师,中国图学学会数字孪生专业委员会委员,主持完成国家自然科学基金青年项目;主持完成江苏省自然科学基金青年项目,并且结题被评为优秀主持新型光源技术及装备教育部工程研究中心开放课题和企业研发项目5项近几年在Physical Review LettersSmallNanoscalePhysical Chemistry Chemical Physics、Physical Review E等国际学术刊物发表SCI论文20余篇,担任Nanotechnology and Precision Engineering青年编委,Nanomaterials的客座编辑,Physics of Fluids、Journal of Applied Physics、Journal of Physical Chemistry等专业学术期刊的审稿人。申请和授权发明专利十余项。指导本科生团队获第九届江苏省大学生机械创新设计大赛二等奖。

Educational Background

期刊论文:

  1.  L. LiJ.W. Mo(co-first author), and Z.G. Li*, Nanofluidic diode for simple fluids without moving parts, Physical Review Letters, 115: 134503, 2015 (Editor’s Suggestion; Featured in Physics)

  2. J.W. Mo*, J.J. Sha, D.K. Li, Z.G. Li, and Y.F. Chen*, Fluid release pressure for nanochannels: The Young-Laplace equation using the effective contact angle, Nanoscale, 11: 8408, 2019

  3. J.W. Mo*, C. Wang, J.Y. Zeng, J.J. Sha, Z.G. Li, and Y.F. Chen*, Directional passive transport of nanodroplets on general axisymmetric surfaces, Physical Chemistry Chemical Physics, 24:9727, 2022 

  4. J.Y. Zeng, T. Zhang, G. Liang, J.W. Mo*, J. Zhu, L. Qin, X.J. Liu*, and Z.H. Ni*, A "turn off-on" fluorescent sensor for detection of Cr(VI) based on upconversion nanoparticles and nanoporphyrin, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 311:124002, 2024

  5.  J.Y. Zeng, X.Y. Wang, Y. Jia, J.W. Mo*, R.L. Sun, T.S. Wu, Q. Xu, and H. Jin, A fluorescent sensor for daunorubicin determination using 808 nm-excited upconversion nanoparticles, Journal of Inorganic and Organometallic Polymers and Materials, 31(7): 2868-2876, 2021

  6. J.W. Mo*, Y.H. Ding, N. Xiang, S. Zhu, J.Y. Zeng, K.D. Bi, J. Ma, J.J. Sha, and Y.F. Chen*, Fluid release pressure for micro-/nanoscale rectangular channels, Journal of Applied Physics, 127: 114302, 2020

  7. J.W. Mo*, S. Wang, J.Y. Zeng, and X. Ding, Aptamer-based upconversion fluorescence sensor for doxorubicin detection, Journal of Fluorescence, 33(5): 1897-1905, 2023

  8. J.W. Mo*, Y.H. Ding, S. Zhu, P. Kuang, L. Shen, N. Xiang*, J.J. Sha, and Y.F. Chen*, Passive microscopic fluidic diodes using asymmetric channels, AIP advances, 9: 085117, 2019

  9. J.W. Mo*and Heng Ban*Measurements and theoretical modeling of effective thermal conductivity of particle beds under compression in air and vacuumCase studies in thermal engineering, 10: 423, 2017

  10. J.W. Mo, C. Li, L. Li, J. Wang, and Z.G. Li*Passive nanofluidic diode using non-uniform nanochannelsPhysics of fluids, 28:580, 2016

  11. J.W. Mo, L. Li, J. Wang, and Z.G. Li*, Passive fluidic diode for simple fluids using nested nanochannel structures, Physical Review E, 93:033101, 2016

  12. J.W. Mo, L. Li, J. Zhou, D. Xu, B. Huang, and Z.G. Li*, Fluid infiltration pressure for hydrophobic nanochannels, Physical Review E, 90: 033022, 2015

  13. J.W. MoD. Garrett, and H. Ban*, Anisotropic effective thermal conductivity of particle beds under uniaxial compression, International Journal of Thermophysics, 36: 2621-2637, 2015

  14. Z. Fei, S. Zhang, J.W. Mo, H. Yi, S.Z. Zhang, H.Y. Yu, K.B. Lin, J.J. Sha*, and Y.F. Chen*, Ion concentration effect on nanoscale electrospray modes, Small, 16:2000397, 2020

  15. Z. Zhao, Y. Qiu, S. Ji, Y. Yang, C. Yang, J.W. Mo, and J. Zhu*Machine learning-assistedwearable sensing for high-sensitivity gesture recognition. Sensors andActuators A: Physical,  365: 114877, 2024

  16. Y. Wang, J.W. Mo, S. Luo, Y. Zhang, B. Huang, and Z.G. Li*, Effects of convex surface roughness on heterogeneous ice nucleation, AIP Advances, 14:055214, 2024

  17. J. Ma*, Q.Y. Zeng, L.J. Zhan, J.W. Mo, Y. Zhang, and Z.H. Ni, Power generation from salinity gradient by reverse electrodialysis in silicon nitride nanopores , Nano, 15(11):2050148, 2020

  18. L. Zhou, K. Li, Z. Li, P. He, K. Lin, J.W. Mo, and J. Ma*, Detection of DNA homopolymer with graphene nanopore, Journal of Vacuum Science & Technology B, 37:061809, 2019

  19. J. Zhou*J.W. Mo, C. Shao, and Z.G. Li, Effects of magnetized walls on the particle structure and the yield stress of magnetorheological fluids, Journal of Magnetism and Magnetic Materials, 389: 124-129, 2015

  20. L. Li, J.W. Mo, and Z.G. Li*, Flow and slip transition in nanochannels, Physical Review E, 90: 033003, 2014

  21. X. Yao, H. Li, S. Wang, W. Xu, J. Ma, and J.W. Mo*Electrically Facilitated Transport of Proteins through Glass Nanopores: Electroosmosis versus Electrophoresis, IEEE 18th International Conference on NEMS, 2023: 193-196 (EI)

  22. C. Wang, J. Sha, H. Yi, J.W. Mo* and J. Ma, Onset voltage for electrospray from nanopores, IEEE International Conference on Industrial Technology, 2022: 1-6 (EI)

  23. S. Wang, J.Y. Zeng, X. Yao, and J.W. Mo*An Nd3+-sensitized Upconversion Fluorescence Sensor Coupled with Microwell Device for the Ratiometric Detection of Doxorubicin,  IEEE 18th International Conference on NEMS, 2023: 170-173 (EI)

  24. H. Yan, P. Zhou, Z. Xu, Z. Chen, and J.W. Mo, CFD study on the flow characteristics in the filleted microchannels, Applied Mechanics and Materials, 103: 268-273, 2011 (EI)

  25. Q.Y. Zeng, J. Ma*J.W. Mo, Y. Zhang, Extracting salt energy difference with silicon nitride nanopore generator, 5th International Conference on Power and Renewable Energy, 2020, p165-169 (EI)



会议报告:

  1. J.W. Mo, J.J. Sha, Z.G. Li , and Y.F. Chen, Molecular dynamics simulation of fluid release from nanochannels, ICMFLOC, Beijing University of Technology, Beijing, 2018

  2. J.W. Mo, J.J. Sha, Y.F. Chen, and Z.G. Li, Molecular dynamics simulation of passive nanofluidic diode using non-uniform nanochannels, The 33rd ITCC International Thermal Conductivity Conference, Utah State University, USA, May 2017

  3. J.W. Mo, and Z.G. Li, Molecular dynamics simulation of passive fluidic diode for simple fluids, The 20thAnnual Conference of HKSTAM, HKUST, Hong Kong, Apr. 2016

  4. J.W. Mo, L. Li, and Z.G. Li, Fluid infiltration pressure for hydrophobic nanochannels, Poster Session Presentation, Gordon Research Conference, Nano-Mechanical Interfaces, HKUST, Hong Kong, Jul. 2015

  5. J.W. Mo and Z.G. Li, On the fluid infiltration pressure for hydrophobic nanochannels, 19th Annual Conference of HKSTAM, HKUST, Hong Kong, Mar. 2015

  6. J.W. Mo, L. Li, and Z.G. Li, Molecular dynamics simulation of nanoscale fluid infiltration, ASME IMECE, Montreal, Canada, Nov. 2014

  7. J.W. Mo and Z.G. Li, Molecular dynamics simulation of nanoscale fluid infiltration into hydrophobic nanochannels, ASME 4th Micro/Nanoscale Heat & Mass Transfer, HKU, Hong Kong, Dec. 2013


Professional Experience
Teaching

项目名称

项目类别

项目时间

工作类别

高效能微型电喷射推进技术基础理论研究

国家自然科学基金

2019.01-2021.12

主持

基于纳米静电喷射的微纳卫星驱动技术与装置的研究

江苏省自然科学基金

2017.07-2020.06

主持

江苏省双创博士

省部级人才项目

2018

主持

基于稀土上转换材料荧光传感器及其检测抗生素残留的研究
新型光源技术及装备教育部工程研究中心开放课题2022.01-2022.12主持

静电喷射推进器的研究

bat365平台体育app官网高水平论文项目

2017.03-2018.12

主持

《机械制图》双语课程教学改革探索

bat365平台体育app官网教学改革研究项目

2018.01-2019.12

主持


Research Interests

1.      莫景文,王晨,曾嘉莹,沙菁㛃,魏志勇,陈云飞.自清洁防结冰复合表面装置:中国,ZL202110708419.2[P]. 2023-05-23.

2.      莫景文,梅林锋,曾嘉莹,魏志勇,陈云飞.纸基微流体二极管装置及可视化生物分子检测方法:中国,ZL202110696166.1[P]. 2022-11-04.

3.      莫景文,曾嘉莹,金辉,许茜,陈云飞,毕可东,申龙,陈科.一种基于上转换发光纳米材料的智能隐形眼镜及其制备方法:中国,ZL201911313548.0[P]. 2022-06-14.

4.      莫景文,申龙,曾嘉莹,陈云飞,毕可东;陈科.一种红外光激发可视化检测重金属离子的方法:中国,ZL201911313549.5[P]. 2022-06-10.

5.      莫景文,曾嘉莹,马建,许茜,毕可东,陈云飞.一种近红外光激发检测环丙沙星的方法:中国,ZL202110696752.6[P]. 2022-10-11.

6.      莫景文,丁耀寰,陈云飞,沙菁洁,倪中华,曾嘉莹.气体喷射与电喷射一体化混合驱动装置:中国,ZL201810722689.7 [P]. 2021-07-27.


Refereed Journals
Other Professional Activities
Selected Publications
Research Projects
Patents and Applications