項楠(東南大學機械工程學院教授)

基於電指紋差異的循環腫瘤細胞精準檢測晶片研究

國家自然科學基金委員會（面上）

2019-2022

60

微流控儀器的設計與製造

江蘇省科技廳（優青）

2019-2022

50

面向稀有循環腫瘤細胞的非標記精準檢測儀器研製

國家自然科學基金委員會（重大儀器）

2018-2022

690

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)

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)

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, 2021, DOI: https://doi.org/10.1002/elps.202100232 (SCI，IF=3.535)

Nan Xiang*, Zhonghua Ni*. Electricity-free hand-held inertial microfluidic sorter for size-based cell sorting, Talanta, 2021, 235: 122807 (SCI，IF=6.057)

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)

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)

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)

張孝哲, 項楠*,倪中華. 單細胞機械性能檢測方法與套用研究進展, 生物物理和生物化學進展, 2021, DOI: http://www.pibb.ac.cn/pibbcn/ch/reader/view_abstract.aspx?flag=2&file_no=202104280000001&journal_id=pibbcn (SCI)

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)

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)

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)

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)

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)

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)

Nan Xiang*, Zhonghua Ni*. Deformability cytometry for high-throughput cell mechanical phenotyping. Science Bulletin, 2020, 65(24):2045-2047 (SCI IF=11.78)

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)

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)

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)

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)

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)

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)

Di Huang, Jiaxiang Man, Di Jiang, Jiyun Zhao, Nan Xiang*. Inertial microfluidics: Recent advances. Electrophoresis,2020, 41, 2166–2187 (SCI，IF=3.535)

Fengtao Jiang, Nan Xiang*, ZhonghuaNi*. Ultrahigh throughput beehive-like device for blood plasma separation. Electrophoresis, 2020, 41(13): 2136–2143. (SCI，IF=3.535)

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)

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)

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)

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)

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)

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)

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)

Linbo Liu, Ke Chen, Nan Xiang*, Zhonghua Ni*. Dielectrophoretic manipulation of nanomaterials: a review. Electrophoresis, 2019, 40(6): 873-889 (SCI，IF=3.535)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)