1. Xi Yin#, Xiaolu Zhu#*, and Zheng Wang. Cell migration regulated by spatially controlled stiffness inside composition-tunable three-dimensional dextran hydrogels[J]. Advanced Materials Interfaces, 2021, 8(17): 2100494. (IF 6.1) Cited by 6
2. Joseph Benjamin Holman, Xiaolu Zhu* and Hao Cheng. Piezoelectric Micropump with Integrated Elastomeric Check Valves: Design, Performance Characterization and Primary Application for 3D Cell Culture, Biomedical Microdevice, 2023, 25(1).
3. Zheng Wang#, Xiaolu Zhu#*, and Xiuli Cong. Spatial micro-variation of 3d hydrogel stiffness regulates the biomechanical properties of hMSCs[J]. Biofabrication, 2021, 13(3): 035051.(IF 10.0) Cited by 6
4. Xiaolu Zhu*, Zheng Wang, and Teng Fang. A review of regulated self-organizing approaches for tissue regeneration[J]. Progress in Biophysics and Molecular biology, 2021, 167(4): 63-78.(IF3.6)
5. Claude A. Kamdem Kamdem, and Xiaolu Zhu*, Numerical Study on the Flow and Heat Transfer Coupled in a Rectangular Mini-Channel by Finite Element Method for Industrial Micro-Cooling Technologies, Fluids, 5 (2020). Cited by 1
6. Zheng Wang, Xiaolu Zhu*, and Xi Yin, Quantitatively Designed Cross-Linker-Clustered Maleimide–Dextran Hydrogels for Rationally Regulating the Behaviors of Cells in a 3d Matrix, ACS Applied Bio Materials (2020). Cited by 5
7. Xiaolu Zhu* and Zheng Wang,Turing-type 3D tubular pattern formed by water molecules: A simulation of the ice crystal growth inside a sandwich structure from the perspective of reaction-diffusion mechanism, arXiv, 2020.
8. Zheng Wang, Xiaolu Zhu*, Ruiyuan Zhang. Characterization and analysis of collective cellular behaviors in 3d dextran hydrogels with homogenous and clustered RGD compositions. Materials 2019, 12(20):3391,1-23 Cited by 11
9. Xiaolu Zhu*, Shiva Gojgini, Ting-Hsuan Chen, Peng Fei; Siyan Dong, Chih-Ming Ho, Tatiana Segura. Directing Three-dimensional Multicellular Morphogenesis by Self-organization of Vascular Mesenchymal Cells in Hyaluronic Acid Hydrogels. Journal of Biological Engineering, 2017,11(1):1-12. Cited by 18
10. Xiaolu Zhu*, Shiva Gojgini, Ting-Hsuan Chen, Fang Teng, Fei Peng, Siyan Dong, Segura Tatiana and Chih-Ming Ho. Three dimensional tubular structure self-assembled by vascular mesenchymal cells at stiffness interfaces of hydrogels. Biomedicine & Pharmacotherapy, 2016. 83(1): 1203-1211. Cited by 14
11. Xiaolu Zhu and Hao Yang, Turing Instability-Driven Biofabrication of Branching Tissue Structures: A Dynamic Simulation and Analysis Based on the Reaction–Diffusion Mechanism. Micromachines, 2018. 9(3): p. 109. Cited by 7
12. Xiaolu Zhu* and Xianting Ding. Study on a 3D hydrogel-based culture model for characterizing growth of fibroblasts under viral infection and drug treatment [J]. SLAS Discovery, 2017, 22(5): 626-634. Cited by 14
13. P. Lv, Xiaolu Zhu*, and A. Ji. Design of a micro manipulation device for cell microinjection [J]. Microsystem Technologies, 2017, 23(7): 2823-2832. Cited by 4
14. Xiaolu Zhu. Manipulation of self-assembled microparticle chains by electroosmotic flow assisted electrorotation in an optoelectronic device. Micromachines, 2015, 6(9): 1387-1405. Cited by 5
15. Ting-Hsuan Chen, Xiaolu Zhu, Leiting Pan, Xingjuan Zeng, Alan Garfinkel, Yin Tintut, Linda L. Demer, Xin Zhao, Chih-Ming Ho. Directing Tissue Morphogenesis via Self-Assembly of Vascular Mesenchymal Cells. Biomaterials, 2012, 33(35): 9019-9026 Cited by 39
16. Xiaolu Zhu, Zhifeng Yin and Zhonghua Ni. Dynamics simulation of positioning and assembling multi-microparticles utilizing optoelectronic tweezers. Microfluidics and Nanofluidics, 2012, 12(1-4):529–544. Cited by 19
17. Xiaolu Zhu, Hong Yi and Zhonghua Ni. Frequency-dependent behaviors of individual microscopic particles in an optically induced dielectrophoresis device. Biomicrofluidics, 2010, 4(1):013202. Cited by 33
18. Ke Chen, Nan Xiang, Yunlin Quan, Xiaolu Zhu, Dongke Sun, Hong Yi and Zhonghua Ni. Directed transport and location-designated rotation of nanowires using ac electric fields. Microfluidics and Nanofluidics, 2014,16 (2): 237-246. Cited by 8
19. 朱晓璐,尹芝峰,高志强,倪中华. 基于光诱导介电泳的微粒子过滤、输运、富集和聚焦的实验研究. 中国科学E:技术科学,2011,41(3):334-342
20. Xiaolu Zhu, Zhiqiang Gao, Zhifeng Yin and Zhonghua Ni. Electrode-rail dielectrophoretic assembly effect: formation of single curvilinear particle-chains on spiral microelectrodes. Microfluidics and Nanofluidics, 2010, 9(4-5): 981-988. Cited by 8
21. Xiaolu Zhu, Zhifeng Yin, Zhiqing Gao and Zhonghua Ni. Experimental study on filtering, transporting, concentrating and focusing of microparticles based on optically induced dielectrophoresis. Science China-Technological Sciences, 2010, 53(9): 2388-2396. Cited by 11
22. Nan Xiang, Xiaolu Zhu, Zhonghua Ni. Application of Inertial Effect in Microfluidic Chips. Progress in Chemistry, 2011, 23(9): 1945-1958.
23. Xiaolu Zhu, Hong Yi, Zhonghua Ni. Numerical Analysis of the Mechanism of a Novel Microchip Based on Dielectrophoresis for Measuring Dielectric Parameters of Cells (in Chinese). Chinese Journal of Mechanical Engineering, 2009, 45(11):197-204.
24. Xiaolu Zhu and Zhonghua Ni. Measurement of Permittivity of Biological Particles Based on Electrorotation (in Chinese). Journal of Southeast University (Natural Science Edition), 2007, 37(5): 861-866.
25. Yan Chang, Xiaolu Zhu, Zhonghua Ni. Path planning for light-induced dielectrophoretic manipulation of micro-particles. Journal of Southeast University (English Edition), 2011, 27(4):388-393.
26. Li Zhang, Xiaolu Zhu and Zhonghua Ni. Dielectric parameter solving algorithm in electrorotation analysis of spherical cells (in Chinese). Journal of Southeast University (Natural Science Edition), 2012, 42(2):280-285.
27. 赵文杰, 朱晓璐*, 程浩. 一种基于凝胶石墨烯复合材料的水质Pb2+电化学传感器. 当代化工,2020 49(10):2646-2650+2655.
28. 吕 品,朱晓璐*,纪爱敏. 可调节细胞位姿的显微注射芯片设计及其分析. 微纳电子技术, 2016, 53(10): 663-671.
29. Xiaolu Zhu* and Yifei Yang. The chapter “Microscopic particle manipulation via optoelectronic devices” in the book Optoelectronics - Optoelectronics-Advanced Device Structures (ISBN 978-953-51-5219-4), edited by Sergei Pyshkin & John Ballato,Clemson University, Clemson, SC, USA. InTech, 2017.5. Croatia - EUROPEAN UNION
30. 朱晓璐,杨逸飞. 考虑双电层内离子空间效应的行波交流电渗流计算模型研究[J]. 科技通报, 2017, 33(2):4-8.
31. 朱晓璐,杨逸飞. 面向组织工程的多细胞结构三维自组装成形方法的研究进展[J]. 河北科技大学学报,2017, 38(6) : 1-8.
32. 杨逸飞, 朱晓璐, 魏长赟,等. 基于XNA的水下打捞机器人建模与运动仿真[J]. 机械设计与制造工程, 2017, 46(5):19-22.
33. 朱晓璐, 程浩, 何凤良, et al. 微纳生物制造关键技术及其在生物医学领域应用[J]. 科技成果管理与研究, 2023, 18(1): 75-77.
Book:
1. Xiaolu Zhu* and Zheng Wang. Self-Organized 3D Tissue Patterns: Fundamentals, Design, and Experiments [M]. Jenny Stanford Publishing Pte. Ltd, 2021. ISBN 978-1-003-18039-5 (eBook),978-981-4877-77-0 (Hardcover).
2. Xiaolu Zhu* and Yifei Yang. The chapter “Microscopic particle manipulation via optoelectronic devices” in the book Optoelectronics - Optoelectronics-Advanced Device Structures (ISBN 978-953-51-5219-4), edited by Sergei Pyshkin & John Ballato,Clemson University, Clemson, SC, USA. InTech, 2017.5. Croatia - EUROPEAN UNION
1. Xiaolu Zhu*, Wenjie Zhao and Hao Cheng. Detecting heavy metal ions with ultra-low concentrations based on composite material incorporating reduced graphene oxide and sodium alginate. International Conference on Advances in Functional Materials (AAAFM-UCLA 2021), Los Angeles, United States, August 18-20,2021.
2. Xiaolu Zhu, et al. Graphene-Flakes Based Microdevices for Detecting Microlitre Liquid Containing Heavy Metal Ions with Low Concentrations, IEEE-CYBER, Suzhou, 2019
3. Xiaolu Zhu and Hao Yang. 4D Biofabrication of Branching Multicellular Structures: A Morphogenesis Simulation Based on Turing’s Reaction-Diffusion Dynamics, in IOP Conference Series: Materials Science and Engineering. 2017. p. 012018. 3rd International Conference on Mechanical Engineering and Automation Science, ICMEAS 2017, University of Birmingham, Birmingham, United kingdom
4. Xiaolu Zhu, et al. Detecting Heavy Mental Ions by Graphene Flakes-Based Microdevices, AAAFM-UCLA 2019, in Los Angeles, United States
6. Xiaolu Zhu and Changzhen Jiang. Theoretically Evaluating the Electric Property of Electric Double Layer at Electrode/Electrolyte Interfaces with Heterogeneous Dielectric Properties, in 2017 International Conference on Sensing, Diagnostics, Prognostics, and Control (SDPC), 2017, pp. 504-509.
7. Xiaolu Zhu, Yifei Yang and Changzhen Jiang. Theoretically assessing electric double layer with heterogeneous dielectric properties by considering the steric effect of ions, in 7th IEEE Annual International Conference on CYBER Technology in Automation, Control, and Intelligent Systems, CYBER 2017, July 31, 2017 - August 4, 2017.
8. Xiaolu Zhu and Yifei Yang. Simulation for Tubular and Spherical Structure Formation via Self- Organization of Vascular Mesenchymal Cells in Three Dimensions. Proceedings of 9th International Congress on Image and Signal Processing, BioMedical Engineering and Informatics(CISP-BMEI 2016), pp.1674-1679, Datong, China, 15-17 October 2016. (oral and poster presentation, EI, 检索号EI: 20171303497595)
10. Xiaolu Zhu. Electroosmotic flow assisted rotation of self-assembled microparticle chains using optoelectronic tweezers. Proceedings of 2015 IEEE 10th International Conference on Nano/Micro Engineered and Molecular Systems(NEMS 2015), Xi’an, China, April 7-11, 2015, p 82-85, published on July 1, 2015.
11. Xiaolu Zhu, Microelectrode-based sensor for detecting viability and activity of cells. Advanced Materials and Structural Engineering: Proceedings of the International Conference on Advanced Materials and Engineering Structural Technology (ICAMEST 2015), April 25-26, 2015, Qingdao , China, CRC Press, Jan. 2016, pp 123-127.
12. Xiaolu Zhu. Active Manipulation and self-assembly of biological micro/nano particles. East Lake International Forum on Frontiers of Science and Technology, Wuhan, China, Qct. 2012: 106-108.
13. Xiaolu Zhu, Hong Yi, Zhonghua Ni. Novel Design of Multiphase Optoelectronic Microfluidic Device for Dielectric Characterization of Single Biological or Colloidal Particles. 2009 IEEE ICME International Conference on Complex Medical Engineering. In Tempe, USA, 9-11 April, 2009:542-547. (EI,检索号20093012217728,被引1次).
14. Xiaolu Zhu, Hong Yi, Zhonghua Ni and Xingzhong Gu. Automatic Separation of Microscopic Particles via Optoelectronic Chip and Associated Platform. The 2009 IEEE International Conference on Mechatronics and Automation. In Changchun, China, 9-12 August, 2009:3140-3144.
15. Xiaolu Zhu. Method for Measuring Dielectrophoretic Spectra of Individual Microscopic Particles without Microelectrodes. 83rd ACS Colloid & Surface Science Symposium. In Columbia University in New York, NY, USA. June 17, 2009
16. Xiaolu Zhu, Zhonghua Ni. Multi-mode DEP Chip for dielectrical phenotype of micro-nano particles. Academic Conference for Anniversary of Southeast University, 2009. 口头报告(oral presentation)