教师名录
项楠,教授/博导,江苏省优青,江苏省“333高层次人才培养工程”中青年学术技术带头人,江苏省优博,金年会信誉至上首批“至善青年学者”(A层次),江苏省“六大人才高峰”高层次人才,2017年破格晋升副教授,2021年破格晋升教授。
在Lab on a Chip (IF 7.517)、Analytical Chemistry (IF 8.008)、Sensors and Actuators B: Chemical (IF 9.221)及Science Bulletin (IF 20.557)等知名期刊发表SCI论文89篇(JCR Q1/Q2区74篇, IF>5的31篇),包括封面论文和研究亮点论文10篇,英国物理学会Top Cited Paper Award论文1篇,南京市自然科学优秀学术论文一等奖获奖论文1篇;发表于Nanotechnology的封面论文被英国物理学会做长达三页纸的大篇幅专题报道。研究工作被他引1200余次,其中被来自哈佛大学、麻省理工学院、加州大学洛杉矶分校等高校的知名学者作为重要研究进展进行图片引用60余次。受邀为斯普林格出版的英文专业书籍《Handbook of Single Cell Technologies》撰写“惯性微流控单细胞分析技术”章节。在微流控权威期刊Lab on a Chip撰写发表“Channel innovations for inertial microfluidics”的惯性微流控领域最新综述。
主持国家自然科学面上/青年基金、江苏省优青等科研或人才项目7项,以排名第二参研国家自然科学重大科研仪器研制项目等国家级科研项目4项。
系列研究成果共计申请发明专利61项,其中已授权32项,申请PCT国际专利4项。受邀担任国际微流体学术会议及ASME会议的分会场主席或子专题组织者,担任JoVE、Biosensors、Nanomaterials、Frontiers in Medical Technology等期刊的客座编辑,担任50余个国际学术期刊的审稿人,获江苏省优秀硕士学位论文指导教师,当选Outstanding reviewer for Lab on a Chip,国际期刊ELECTROPHORESIS (JCR 2区)编委。
所负责的微流控及软体仿生机器人课题组一直从事新型微型化医疗仪器、创新即时诊断设备、微机电系统产品及软体仿生机器人的设计与制造,及其所涉及精密加工、微操控和精准检测基础科学问题的研究。派遣研究生前往哈佛大学等知名高校联合培养或深造,毕业博士生就职于金年会信誉至上、中国矿大、南3451515新时代赌场、南林及河海大学等江苏各大高校,硕士生就职于华为、迈瑞、大众、飞利浦、14所、中信等企业或研究所,薪资优厚。
课题组注重科研创新能力训练,致力于高水平研究,无基础要求,设备齐全,经费充裕,学术氛围好。
欢迎优秀学子加入课题组攻读硕士及博士学位(每年招生博士生1-2人,硕士生3-4人)!欢迎联系咨询!
联系邮箱:nan.xiang@seu.edu.cn
2015年1月-2017年10月,金年会信誉至上,机械工程学院,讲师
2017年11月-2021年3月,金年会信誉至上,机械工程学院,副教授(破格)/博导
2021年4月-至今,金年会信誉至上,机械工程学院,教授(破格)/博导
机械制图(A),80学时
生物微流体技术
机械制造II
Lab on a Chip
Small
ACS Nano
Biosensors and Bioelectronics
Analytical Chemistry
Applied Materials Today
ACS Applied Materials & Interfaces
ACS Sensors
Sensors and Actuators B: Chemical
IEEE Transactions on Biomedical Engineering
Advanced Materials Technologies
Microsystems & Nanoengineering
Langmuir
Talanta
Analytica Chimica Acta
Advanced Intelligent Systems
Bioengineering & Translational Medicine
Biomedical Physics & Engineering Express
Acta BiomaterialiaBiomedical Microdevices
Biotechnology Journal
Journal of Chromatography AACS Sustainable Chemistry& Engineering
ELECTROPHORESIS
Journal of Physics D: Applied Physics
Royal Society Open Science
Microfluidics and Nanofluidics
Scientific Reports
Biomicrofluidics
Sensor
Physics of Fluids
Journal of Industrial and Engineering Chemistry
Journal of Visualized Experiments
IEEE Transactions on Biomedical Circuits and Systems
IEEE Journal of Biomedical and Health Informatics
Journal of Micromechanics and Microengineering
Particuology
IEEE Sensors
Extreme Mechanics Letter
Chinese Physics B
Meccanica
Chemical Engineering and Processing - Process Intensification
Journal of Biotechnology
Micro & Nano Letters
Applied Physics A
AIChE Journal
Optics and Laser Technology
Analyst
Nano-Micro Letters
Microchemcial Journal
Journal of Science Advanced Materials and Device
Journal of Hepato-biliary-pancreatic Sciences
Frontiers in Bioengineering and Biotechnology
ACS Omega
Talanta Open
Journal of Nanomaterials, Nanoengineering and Nanosystems
Micromachines
Biosensors
Fluids
Pharmaceutics
Frontiers in Medical Technology
SLAS Technology
Polymers
物理学报
分析化学
中国生物医学工程学报
光学精密工程
生物化学与生物物理进展
2022年,江苏省“333高层次人才培养工程”中青年学术技术带头人
2022年,金年会信誉至上优秀硕士学位论文指导教师
2022年,国际期刊ELECTROPHORESIS (JCR 2区)编委
2021年,江苏省优秀硕士学位论文指导教师
2021年,Journal of Visualized Experiments期刊Methods Collections“Microfluidic cell manipulation”的客座编辑
2020年,英国皇家化学学会Outstanding reviewer for Lab on a Chip
2020年,英国物理学会IOP Publishing Top Cited Paper Award
2019年,江苏省优青
2018年,金年会信誉至上首批“至善青年学者”(A层次)
2018年,International Conference of Microfluidics, Nanofluidics and Lab-on-a-Chip分会场主席
2019年,The 6th ASME Micro/Nanoscale Heat & Mass Transfer International Conference子专题组织者及分会场主席
2017年,Nanotechnology 封面研究被英国物理学会专题报道
2017年,江苏省“六大人才高峰”高层次人才计划
2016年,江苏省优秀博士学位论文
2018年,南京市第十二届自然科学优秀学术论文一等奖
2016年,金年会信誉至上优秀博士学位论文
2016年,中泰国立奖教金三等奖
2013年和2012年,研究生国家奖学金
已在Lab on a Chip (IF 7.517)、Analytical Chemistry (IF 8.008)、Sensors and Actuators B: Chemical (IF 9.221)及Science Bulletin (IF 20.557)等知名期刊发表SCI论文89篇(JCR Q1/Q2区74篇, IF>5的31篇),包括封面和研究亮点论文10篇,获奖论文2篇,图书章节1部。节选代表性论著如下:
(*为通讯作者,详细列表见:https://www.researchgate.net/profile/Nan_Xiang6)
(66) Nan Xiang, Zhonghua Ni. Inertial Microfluidics for Single-Cell Manipulation and Analysis.In: Santra T., Tseng FG. (eds) Handbook of Single Cell Technologies. Springer, Singapore (参编图书章节)
(67) Kefan Guo,Yao Chen, Zheng Zhou, Shu Zhu, Zhonghua Ni, Nan Xiang*,A novel 3D Tesla valve micromixer for efficient mixing and chitosan nanoparticle production. Electrophoresis, 2022, https://doi.org/10.1002/elps.202200077 (SCI,IF=3.535)
(66) Dezhi Tang, Lin Jiang, Nan Xiang*, Zhonghua Ni*. Discrimination of tumor cell type based on cytometric detection of dielectric properties,Talanta, 2022, 246:123524 (SCI,IF=6.057)
(65) Zhixian Zhu, Shuang Li, Dan Wu, Hui Ren, Chen Ni, Cailian Wang*, Nan Xiang* and Zhonghua Ni. High-throughput and label-free enrichment of malignant tumor cells and clusters from pleural and peritoneal effusions using inertial microfluidics, Lab on a Chip, 2022, 22: 2097-2106 (SCI,IF=6.799,正封面论文)
(64) Yao Chen, Zheng Zhou, ShuZhu, Zhonghua Ni, Nan Xiang*. Label-free Microfluidics for Single-Cell Analysis, Microchemical Journal, 2022, 177: 107284 (SCI,IF=4.821)
(63) Dezhi Tang, Lin Jiang, WenlaiTang*, Nan Xiang*, Zhonghua Ni*. Cost-effective portable microfluidic impedance cytometer for broadbandimpedance cell analysis based on viscoelastic focusing, Talanta, 2022, 242(6):123274 (SCI,IF=6.057)
(62) Fengtao Jiang, Nan Xiang*. Integrated Microfluidic Handheld Cell Sorter for High-ThroughputLabel-Free Malignant Tumor Cell Sorting, Analytical Chemistry, 2022, 94(3): 1859–1866 (SCI,IF=6.986)
(61) Nan Xiang*, Zhonghua Ni. High-throughput concentration of rare malignant tumor cells from large-volume effusions by multistage inertial microfluidics, Lab on a Chip, 2022, 22(4):757-767 (SCI,IF=6.799)
(60) Nan Xiang*, Zhonghua Ni. Hand-Powered Inertial Microfluidic Syringe-Tip Centrifuge, Biosensors, 2022, 12(1): 14 (SCI,IF=5.519)
(59) Shu Zhu, Yaohui Fang, Yao Chen, Peiwen Yu, Yu Han, Nan Xiang*, Zhonghua Ni*. Stackable Micromixer with Modular Design for Efficient Mixing over Wide Reynold Numbers, International Journal of Heat and Mass Transfer, 2022, 183:122129 (SCI,IF=5.584)
(58) Fengtao Jiang, Nan Xiang*. Series and parallel integration of flow regulators for precise and multiple-output fluid delivery,Sensors and Actuators: A. Physical, 2021, 332:113160 (SCI,IF=3.407)
(57) Cailian Wang*, Yan Chen, Xuyu Gu, Xiuxiu Zhang, Chanchan Gao, Lijun Dong, Shiya Zheng, Shicheng Feng, Nan Xiang*. Low-cost polymer-film spiral inertial microfluidic device for label-free separation of malignant tumor cells, Electrophoresis, 2022, 43: 464–471 (SCI,IF=3.535)
(56) Nan Xiang*, Zhonghua Ni*. Electricity-free hand-held inertial microfluidic sorter for size-based cell sorting, Talanta, 2021, 235: 122807 (SCI,IF=6.057)
(55) Zheng Zhou, Yao Chen, Shu Zhu, Linbo Liu, Zhonghua Ni, Nan Xiang*. Inertial microfluidics for high-throughput cell analysis and detection: a review, Analyst, 2021, 146: 6064–6083 (SCI,IF=4.616)
(54) Nan Xiang*, Silin Wang, Zhonghua Ni*. Secondary-flow-aided single-train elastic-inertial focusing in low elasticity viscoelastic fluids, Electrophoresis, 2021, 42: 2256–2263 (SCI,IF=3.535)
(53) Shu Zhu, Xiaozhe Zhang, Mu Chen, Dezhi Tang, Yu Han, Nan Xiang*, Zhonghua Ni*.An easy-fabricated and disposable polymer-film microfluidic impedance cytometer for cell sensing, Analytica Chimica Acta, 2021, 1175: 338759 (SCI,IF=6.558)
(52) 张孝哲, 项楠*,倪中华. 单细胞机械性能检测方法与应用研究进展, 生物物理和生物化学进展, 2022, 49(2): 303~317 (中文综述SCI)
(51)Shu Zhu, Xiaozhe Zhang, Zheng Zhou, Yu Han, Nan Xiang*, Zhonghua Ni*. Microfluidic impedance cytometry for single-cell sensing: review on electrode configurations. Talanta, 2021, 233: 122571 (SCI,IF=6.057)
(50)Zhixian Zhu, Dan Wu, Shuang Li, Yu Han, Nan Xiang*, Cailian Wang, Zhonghua Ni*. A polymer-film inertial microfluidicsorter fabricated by jigsaw puzzle method for precise size-based cellseparation. Analytica Chimica Acta, 2021, 1143:306-314 (SCI,IF=6.558)
(49)Dezhi Tang, Mu Chen, Yu Han*, Nan Xiang*, Zhonghua Ni*. Asymmetric serpentine microchannel based impedance cytometerenabling consistent transit and accurate characterization of tumor cells and bloodcells. Sensors & Actuators: B. Chemical, 2021, 336:129719 (SCI,IF=7.46)
(48)Hui Ren, Zhixian Zhu, Nan Xiang*, HaoWang, Tingting Zheng, Hongjie An, Nam-Trung Nguyen*, Jun Zhang*. Multiplexedserpentine microchannels for high-throughput sorting of disseminated tumorcells from malignant pleural effusion. Sensors & Actuators: B. Chemical, 2021, 337:129758 (SCI,IF=7.46)
(47)Di Huang, Nan Xiang*. Rapid andprecise tumor cell separation using the combination of size-dependent inertialand sizeindependent magnetic methods. Lab on a Chip, 2021, 21(7):1409-1417 (SCI,IF=6.799)
(46)Di Jiang, Chen Ni, Wenlai Tang*, Nan Xiang*. Numerical simulation of elasto-inertial focusing of particles instraight microchannels.Journalof Physics D: Applied Physics, 2021, 54:065401 (SCI,IF=3.207)
(45)Nan Xiang*, Zhonghua Ni*. Deformability cytometry for high-throughput cell mechanical phenotyping. Science Bulletin, 2020, 65(24):2045-2047 (SCI IF=11.78)
(44) Nan Xiang*, Qiao Li, Zhonghua Ni*. Combining Inertial Microfluidics with Cross-Flow Filtration for High-Fold and High-Throughput Passive VolumeReduction. Analytical Chemistry, 2020, 92(9):6770-6776 (SCI,IF=6.986)
(43)Wenlai Tang, Shu Zhu, Di Jiang, Liya Zhu, Jiquan Yang, Nan Xiang*. Channel innovations for inertial microfluidics. Lab on a Chip, 2021, 20: 3485-3502 (SCI,IF=6.799)
(42) Shu Zhu, Dan Wu, Yu Han, Cailian Wang, Nan Xiang*, Zhonghua Ni*. Inertial microfluidic cube for automatic and fast extraction of white blood cells from whole blood. Lab on a Chip, 2020, 20(2):244-252 (SCI,IF=6.799,正封面论文)
(41) Nan Xiang*, Qiao Li, Zhiguo Shi, Chenguang Zhou, Fengtao Jiang, Yu Han,Zhonghua Ni*. Low-cost multi-core inertial microfluidic centrifuge forhigh-throughput cell concentration. Electrophoresis, 2020, 41(10-11):875-882 (SCI,IF=3.535)
(40) Linbo Liu, Haoyan Xu, Haibo Xiu, Nan Xiang*, Zhonghua Ni*. Microfluidicon-demand engineering of longitudinal dynamic self-assembly of particles. Analyst,2020, 145:5128-5133 (SCI,IF=4.616)
(39)Shu Zhu, Fengtao Jiang, Yu Han, Nan Xiang*, Zhonghua Ni*. Microfluidics for label-free sorting of rarecirculating tumor cells. Analyst 2020, 145(22): 7103-7124. (SCI,IF=4.616)
(38)Di Huang, Jiaxiang Man, Di Jiang, Jiyun Zhao, Nan Xiang*. Inertial microfluidics: Recent advances. Electrophoresis,2020, 41, 2166–2187 (SCI,IF=3.535)
(37)Fengtao Jiang, Nan Xiang*, ZhonghuaNi*. Ultrahigh throughput beehive-like device for blood plasma separation. Electrophoresis, 2020, 41(13): 2136–2143. (SCI,IF=3.535)
(36)Yunlin Quan, Ke Chen, Nan Xiang*,Zhonghua Ni*. A single-view field filter device for rare tumor cell filtrationand enumeration. Electrophoresis, 2020, 41(23):2000-2006. (SCI,IF=3.535)
(35) Linbo Liu, Nan Xiang*, Zhonghua Ni*. Droplet-based microreactor for the production ofmicro/nano-materials. Electrophoresis, 2020, 41(10-11):833-851 (SCI,IF=3.535)
(34) Nan Xiang*, Rui Zhang, YuHan, Zhonghua Ni*. A Multilayer Polymer-Film Inertial Microfluidic Device for High-Throughput Cell Concentration. Analytical Chemistry, 2019, 91(8):5461-5468 (SCI,IF=6.986)
(33) Nan Xiang*, Yu Han, Yuan Jia, Zhiguo Shi, Hong Yi, Zhonghua Ni*.Flow stabilizer on a syringe tip for hand-powered microfluidic sample injection. Lab on a Chip, 2019, 19(2): 214-222(SCI,IF=6.799,正封面论文)
(32) Nan Xiang*, Jie Wang, Qiao Li, Yu Han, Di Huang*, Zhonghua Ni*. Precise Size-Based Cell Separation via the Coupling of Inertial Microfluidics and Deterministic Lateral Displacement. Analytical Chemistry, 2019, 91(15):10328-10334 (SCI,IF=6.986)
(31) Xinjie Zhang, Kang Xia, Aimin Ji, Nan Xiang*. A smart and portable micropump for stable liquid delivery. Electrophoresis, 2019, 40(6): 865-872 (SCI,IF=3.535)
(30)Jingwen Mo*, Yaohuan Ding,Shu Zhu, Pan Kuang, Long Shen, Nan Xiang*,Jingjie Sha, Yunfei Chen*. Passive microscopic fluidic diodes using asymmetricchannels. AIP Advances, 2019, 9(8):085117 (SCI,IF=1.548)
(29) Linbo Liu, Ke Chen, Nan Xiang*, Zhonghua Ni*. Dielectrophoretic manipulation of nanomaterials: a review. Electrophoresis, 2019, 40(6): 873-889 (SCI,IF=3.535)
(28) Nan Xiang*, Qing Dai, Yu Han, Zhonghua Ni*. Circular-channel particlefocuser utilizing viscoelastic focusing. Microfluidics and Nanofluidics, 2019, 23(2):16 (SCI,IF=2.529)
(27) Wenlai Tang*, Di Jiang, Zongan Li, Liya Zhu, Jianping Shi, JiquanYang, Nan Xiang*. Recent advances in microfluidic cell sorting techniques based on both physical and biochemicalprinciples. Electrophoresis, 2019, 40(6): 930-945 (SCI,IF=3.535)
(26) Wenlai Tang, Ning Fan, Jiquan Yang, Zongan Li, Liya Zhu, Di Jiang, Jianping Shi*, Nan Xiang*.Elasto-inertial particle focusing in 3D-printed microchannels withunconventional cross sections.Microfluidics and Nanofluidics, 2019, 23(3):42 (SCI,IF=2.529)
(25) Di Jiang, Di Huang, Gutian Zhao, Wenlai Tang*, Nan Xiang*. Numerical simulation of particle migration in different contraction–expansion ratio microchannels. Microfluidicsand Nanofluidics, 2019, 23(1), 7 (SCI,IF=2.529)
(24) Nan Xiang*, Xin Shi, Yu Han, Zhiguo Shi, Fengtao Jiang, Zhonghua Ni*. Inertial Microfluidic Syringe Cell Concentrator. Analytical Chemistry, 2018, 90(15): 9515–9522 (SCI,IF=6.986)
(23) Nan Xiang*, Zhonghua Ni, Hong Yi*. Concentration‐controlled particle focusing inspiral elasto‐inertial microfluidic devices. Electrophoresis, 2018, 39(2): 417-424(SCI,IF=3.535,封面论文)
(22) Xinjie Zhang, Zhixian Zhu, Nan Xiang*, Feifei Long, Zhonghua Ni*. Automated microfluidic instrument for label-free and high-throughput cell separation.Analytical Chemistry, 2018,90(6): 4212–4220 (SCI,IF=6.986)
(21)Xin Wang, Ke Chen, Linbo Liu, Nan Xiang*, ZhonghuaNi*. Dielectrophoresis-based multi-stepnanowire assembly on a flexible superstrate. Nanotechnology, 2018, 29(2):025301 (SCI,IF=3.874)
(20) Wenlai Tang, Dezhi Tang, Zhonghua Ni, Nan Xiang*, Hong Yi*. Microfluidic impedance cytometer with inertial focusing and liquid electrodes for high-throughput cell counting and discrimination. Analytical Chemistry, 2017, 89(5):3154-3161(SCI,IF=6.986,当期研究亮点)
(19) Linbo Liu, Ke Chen*, Di Huang, Xin Wang, Nan Xiang*, Zhonghua Ni. A novel ‘leadless’dielectrophoresis chip with dot matrix electrodes for patterning nanowires.Nanotechnology, 2017, 28(28):285302(SCI,IF=3.874,正封面论文,英国皇家物理学会旗下nanotechweb.org网站专题报道)
(18) Xinjie Zhang, Zhixian Zhu, Zhonghua Ni, Nan Xiang*, Hong Yi*. Inexpensive, rapidfabrication of polymer-film microfluidic autoregulatory valve for disposablemicrofluidics. Biomedical Microdevices, 2017, 19(2):21 (SCI,IF=2.838)
(17) Wenlai Tang, Dezhi Tang, Zhonghua Ni, Nan Xiang*, Hong Yi*. A portable single-cell analysis system integrating hydrodynamic trapping with broadband impedance spectroscopy. Science ChinaTechnological Sciences, 2017, 60(11):1707-1715 (SCI,IF=3.572)
(16) Nan Xiang*, Qing Dai, Zhonghua Ni*.Multi-train elasto-inertial particle focusing in straight microfluidicchannels. Applied Physcis Letters,2016, 109(13):134101 (SCI,IF=3.791)
(15) Xinjie Zhang, Zhixian Zhu, Nan Xiang*,Zhonghua Ni*. A microfluidic gas damper for stabilizing gas pressure inportable microfluidic systems.Biomicrofluidics,2016, 10(5):054123 (SCI,IF=2.8)
(14) Nan Xiang*, Xinjie Zhang, Qing Dai, Jie Cheng, Ke Chen, Zhonghua Ni*. Fundamentals ofelasto-inertial particle focusing in curved microfluidic channels. Lab on a Chip, 2016, 16(14):2626-2635(SCI,IF=6.799,背封面论文)
(13) Nan Xiang*, Di Huang, Jie Cheng, KeChen, Xinjie Zhang, Wenlai Tang, Zhonghua Ni*. Focusing dynamics offinite-sized particles in confined microfluidic channels. Applied Physics Express, 2016, 9(2):027001 (SCI,IF=2.895)
(12) Di Huang, Xin Shi, Yi Qian, Wenlai Tang, Linbo Liu, Nan Xiang*, Ni Zhonghua*. Rapid separation of human breast cancer cells from blood using a simple spiral channel device. Analytical Methods, 2016, 8(30): 5940-5948 (SCI,IF=2.896)
(11) Di Jiang, Wenlai Tang, Nan Xiang*, ZhonghuaNi*. Numerical simulation of particle focusing in a symmetrical serpentine microchannel. RSC Advances, 2016,6(62): 57647-57657 (SCI,IF=3.361)
(10) Xinjie Zhang, Xin Wang, Ke Chen, Jie Cheng, Nan Xiang*, Zhonghua Ni*.Passive flow regulator for precise high-throughput flow rate control in microfluidic environments. RSC Advances, 2016, 6(38): 31639-31646 (SCI,IF=3.361)
(9) Xinjie Zhang, Di Huang, Wenlai Tang, Di Jiang, Ke Chen, Hong Yi, Nan Xiang*, Zhonghua Ni*. A low cost and quasi-commercial polymerfilm chip for high-throughput inertial cell isolation. RSC Advances, 2016, 6(12): 9734-9742 (SCI,IF=3.361)
(8) Nan Xiang*, Zhonghua Ni.High-throughput blood cell focusing and plasma isolation using spiral inertialmicrofluidic devices. Biomedical Microdevices, 2015, 17(6): 110-121 (SCI,IF=2.838)
(7)Nan Xiang, Zhiguo Shi, Wenlai Tang, DiHuang, Xinjie Zhang, Zhonghua Ni*. Improved understanding of particle migrationmodes in spiral inertial microfluidic devices. RSC Advances, 2015,5(94): 77264-77273 (SCI,IF=3.361)
(6)XinjieZhang#, Nan Xiang#(共同一作), Wenlai Tang, Di Huang, XinWang, Hong Yi, Zhonghua Ni*. A passive flow regulator with low threshold pressure for high-throughput inertial isolation of microbeads. Lab on a Chip, 2015, 15(17): 3473-3480 (SCI,IF=6.799,正封面论文)
(5) Nan Xiang, Ke Chen, Qing Dai, Di Jiang, Dongke Sun, Zhonghua Ni*. Inertia-induced focusing dynamics of microparticles throughout a curved microfluidic channel. Microfluidics and Nanofluidics, 2015, 18(1): 29-39 (SCI,IF=2.529)
(4)Nan Xiang, Hong Yi, Ke Chen, DongkeSun, Di Jiang, Qing Dai, Zhonghua Ni*. High-throughput inertial particlefocusing in a curved microchannel: Insights into the flow-rate regulation mechanism and process model. Biomicrofluidics, 2013, 7(4): 044116(SCI,IF=2.8)
(3)Nan Xiang, Hong Yi, Ke Chen, ShanfangWang, Zhonghua Ni*. Investigation of the maskless lithography technique for therapid and cost-effective prototyping of microfluidic devices in laboratories. Journal of Micromechanics and Microengineering, 2013, 23(2): 025016 (SCI,IF=1.881)
(2) Nan Xiang, Ke Chen, Dongke Sun, Shanfang Wang, Hong Yi, ZhonghuaNi*. Quantitative characterization of the focusing process and dynamic behaviorof differently sized microparticles in a spiral microchannel. Microfluidicsand Nanofluidics, 2013, 14(1-2): 89-99 (SCI,IF=2.529)
(1) Nan Xiang, Xiaolu Zhu, Zhonghua Ni*.Application of Inertial Effect in Microfluidic Chips. Progress in Chemistry, 2011, 23(9): 1945-1958 (SCI,IF=1.172)
(1) 国家自然科学基金委员会,面上项目,51875103,基于电指纹差异的循环肿瘤细胞精准检测芯片研究,2019-01至2022-12,60万元,在研,主持
(2) 江苏省科技厅,优青项目,BK20190064,微流控仪器的设计与制造,2019-07至2022-06,50万元,在研,主持
(3) 国家自然科学基金委员会,重大科研仪器研制项目,81727801,面向稀有循环肿瘤细胞的非标记精准检测仪器研制,2018-01至2022-12,690万元,在研,参加(排2)
(4) 国家自然科学基金委员会,面上项目,51775111,全血中稀有循环肿瘤细胞的精准表征方法研究,2018-01至2021-12,62万元,在研,参加(排2)
(5) 江苏省委组织部,第十四批“六大人才高峰”高层次人才计划,SWYY-005,2017-09至2020-08,4万元,已结题,主持
(6) 金年会信誉至上,人才项目,首批至善青年学者(A层次),2017-01至2020-12,30万元,已结题,主持
(7) 国家自然科学基金委员会,青年项目,51505082,形变和形状特性对生物粒子惯性迁移行为的影响机理研究,2016-01至2018-12,26万元,已结题,主持
(8) 江苏省科技厅,青年项目,BK20150606,复杂特性生物细胞惯性聚焦机理及其应用研究,2015-07至2018-06,20万元,已结题,主持
(9) 流体动力与机电系统国家重点实验室,开放基金,GZKF-201501,基于惯性微流控技术的生物细胞聚焦机理及分选应用研究,2015-12至2017-12,5万元,已结题,主持
(10) 金年会信誉至上,高水平论文专项,稀有细胞精准电阻抗表征的装置开发研究,2017-03至2018-12,11万元,已结题,主持
(11) 国家自然科学基金委员会,面上项目,81572906,基于惯性及介电泳技术的循环肿瘤细胞多级分选装置研究,2016-01至2019-12,77万元,已结题,参加(排2)
(12) 国家自然科学基金委员会,面上项目,51375089,单根精度纳米线的高柔性与大规模操控技术研究,2014-01至2017-12,90万元,已结题,参加(排3)
(13) 国家自然科学基金委员会,科学部主任基金,51145009,基于惯性微流控技术的微纳米粒子操控机理的研究,2012-01至2012-12,10万元,已结题,参加(排2)
(14) 高等学校博士学科点专项科研基金博导类课题,20110092110003,基于惯性微流控技术的微纳米粒子分选方法研究,2012-01至2014-12,12万元,已结题,参加(排2)
系列研究成果共计申请发明专利61项,其中已授权32项,申请PCT国际专利4项,节选部分核心专利列表如下:
(1) 项楠、倪中华、张睿、石欣、李峤,一种机械驱动的精确进样装置,申请号:ZL 201810346348.4,授权公告日:2021.03.19 发明授权
(2) 项楠、蒋丰韬、倪中华,三维螺旋结构细胞分选微流控芯片及其制作方法,申请号:ZL 201810268556.7,授权公告日:2020.09.11 发明授权
(3) 项楠、倪中华,注射器流量稳定装置,申请号:ZL201710816183.8,授权公告日:2020.07.31 发明授权
(4) 项楠、倪中华,一种分选细胞的微流控器件及其使用方法,申请号:ZL 201710872818.6,授权公告日:2020.07.31 发明授权
(5) 项楠、倪中华、张睿、姜恒、郑宇,微米粒子高通量富集微流控芯片,申请号:ZL 201711248886.1,授权公告日:2020.05.19 发明授权
(6) 项楠、王欣、倪中华、陈科,一种基于光诱导介电泳技术和纳米孔的DNA测序装置和测序方法,申请号:ZL 201710238945.0,授权公告日:2019.07.30 发明授权
(7) 项楠、倪中华、朱志贤、张鑫杰,一种肿瘤细胞高通量分选富集微流控芯片,申请号:ZL 201710227189.1,授权公告日:2019.06.21 发明授权
(8) 项楠、倪中华,微流控注射器滤头及其使用方法,申请号:ZL 201710816147.1,授权公告日:2019.06.21 发明授权
(9) 项楠、倪中华、郑宇、姜恒,一种能实现细胞中心位置聚焦和检测的微流控芯片,申请号:ZL 201710153375.5,授权公告日:2019.05.24 发明授权
(10) 项楠、蒋丰韬、倪中华,一种微流控移液器枪头,申请号:ZL 201710461769.7,授权公告日:2019.04.30 发明授权
(11) 项楠、倪中华、姜恒、郑宇,一种高通量微米粒子循环分选与浓缩装置及其制作方法,申请号:ZL 201710235635.3,授权公告日:2019.03.12 发明授权
(12) 项楠、王欣、倪中华、陈科,一种制作银纳米线柔性透明导电薄膜的方法,申请号:ZL 201710126436.9,授权公告日:2018.04.24 发明授权
(13) 项楠、倪中华、易红、陈云飞、陈科、孙东科,一种微米级粒子高通量分选的微流控器件及其制作方法,申请号:ZL 201110407831.7,授权公告日:2014.05.07 发明授权
