Publications:(*denotes corresponding author)

1. Tetherless Near-infrared Control of Brain Activity in Behaving Animals Using Fully Implantable Upconversion Microdevices. Ying Wang, Xudong Lin, Xi Chen, Xian Chen, Zhen Xu, Wenchong Zhang, Qinghai Liao, Xin Duan, Xin Wang, Ming Liu, Feng Wang, Jufang He, Peng Shi*. Biomaterials, 142, 136-148, 2017. [pdf] [Movie 1, Movie 2, Movie 3, Movie 4]

2. Multiplexed Optogenetic Stimulation of Neurons with Spectrum-Selective Upconversion Nanoparticles. Xudong Lin, Ying Wang, Xian Chen, Runhuai Yang, Zixun Wang, Jingyu Feng, Haitao Wang, King W. C. Lai, Jufang He, Feng Wang*, Peng Shi*. Advanced Healthcare Materials, 2017, DOI: 10.1002/adhm.201700446. [pdf, frontispiece highlight]

3. Cell Generator: A Self-sustaining Bio-hybrid System Based on Energy Harvesting from Engineered Cardiac Micro-tissues. Xu Bingzhe, Lin Xudong, Li Wei, Wang Zixun, Zhang Wenchong, Shi Peng*. Advanced Functional Materials, 2017, 27, 1606169. [pdf, frontispiece highlight, covered by nanowerk]

4.  Anti-counterfeiting Patterns Encrypted with Multi-Mode Luminescent Nanotaggants. Tianying Sun, Bingzhe Xu, Bing Chen, Xian Chen, Mingyu Li*, Peng Shi*, and Feng Wang*. Nanoscale, 2017  Feb 23;9(8):2701-2705. [pdf]

5.  Investigation of the Subcellular Neurotoxicity of Amyloid- Using a Device Integrating Microfluidic Perfusion and Chemotactic Guidance. W Li, Z Xu, B Xu, CY Chan, X Lin, Y Wang, G Chen, Z Wang, Q Yuan, G Zhu, H Sun, W Wu, and P Shi*. Advanced Healthcare Materials, 2017, DOI:10.1002/adhm.201600895. [pdf]

6.  Mechanically Resilient, Injectable, and Bioadhesive Supramolecular Gelatin Hydrogels Crosslinked by Weak Host-Guest Interactions Assist Cell Infiltration and In Situ Tissue Regeneration. Xudong Q Feng, K Wei, S Lin, Z Xu, Y Sun, P Shi, G Li, L Bian. Biomaterials, 101:217C228, 2016.

7.  Controllable 3D alginate hydrogel patterning via visible-light induced electrodeposition. G Dai, W Wan, Y Zhao, Z Wang, W Li, P Shi, Y Shen. Biofabrication, 8 (2), 025004 2016.

8. Autonomous system for cross-organ investigation of ethanol-induced acute response in behaving larval zebrafish. Xudong Lin, Vincent Li, Siya Chen, Chung-Yuen Chan, Shuk-Han Cheng and Peng Shi*. Biomicrofluidics, 10, 024123, 2016. [pdf] [Featured on Biomicrofluidics facebook ].

9. Controlled nanoparticle release from stable magnetic microbubble oscillations. Yu Gao, Chon U Chan, Qiushi Gu, Xudong Lin, Wencong Zhang, Chen Loong Yeo, Astrid Marlies Alsema, Manish Arora, Seow Khoon Chong, Peng Shi, Claus-Dieter Ohl and Chenjie Xu. NPG Asia Materials, 8, e260, 2016. [pdf].

10. Ultrathin MXene-micropattern-based Field-effect Transistor for Probing Neural Activity. Bingzhe Xu, Minshen Zhu, Wencong Zhang, Xu Zhen, Zengxia Pei, Qi Xue, Chunyi Zhi, Peng Shi*. Advanced Materials, 28(17): 3333-3339, 2016. [pdf]][Featured as back cover of this issue, covered by MaterialsViewsChina].

11. Self-Monitoring and Self-Delivery of Photosensitizer-Doped Nanoparticles for Highly Effective Combination Cancer Therapy in Vitro and in Vivo. Jinfeng Zhang, et al, Peng Shi, Lung-Chen Tu, Chia-Ching Chang, Xiaohong Zhang, Xianfeng Chen, Wenjun Zhang, Chun-Sing Lee. ACS Nano, 9(10), 9741-9756, 2015. [pdf]

12. Interrogation of Cellular Innate Immunity by Diamond-nanoneedle-assisted Intracellular Molecular Fishing. Zixun Wang, Yang Yang, Zhen Xu, Ying Wang, Wenjun Zhang, Peng Shi*. Nano Letters, 15(10):7058-63, 2015. [pdf]

13. Remote Modulation of Neural Activities via Near-infrared Triggered Release of Biomolecules. Wei Li, Rongcong Luo, Xudong Lin, Amol D. Jadhav,  Zicong Zhang, Li Yan, Chung-Yuan Chan, Xianfeng Chen, Jufang He, Chia-Hung Chen, Peng Shi*. Biomaterials, 65, pp. 76-85, 2015. [pdf]

14. Photoresponsive Microvalve for Remote Actuation and Flow Control in Microfluidic Devices. Amol D. Jadhav, Bao Yan, Rong-Cong Luo, Li Wei, Xu Zhen, Chia-Hung Chen, Peng Shi*. Biomicrofluidics, 9, 034114, 2015. [pdf]

15. Compartmentalized Platforms for Neuro-pharmacological Research. A.D. Jadhav, W. Li, Z. Xu, and P. Shi*. Current Neuropharmacology,  2016;14(1):72-86. [pdf, invited review]

16. An upconversion nanoprobe operating in the first biological window. Qiang Ju, Xian Chen, Fujin Ai, Dengfeng Peng, Xudong Lin, Wei Kong, Peng Shi, Guangyu Zhu and Feng Wang. J. Mater. Chem. B, 2015, 3, 3548-3555. [pdf]

17. Large-scale Topographical Screen for Investigation of Physical Neural-Guidance Cues. W. Li, Q. Tang, A.D. Jadhav, A. Narang, W. Qian, P. Shi*, and S.W. Pang. Scientific Reports, 5:8644, 2015. [pdf]

18. High-throughput Mapping of Brain-wide Activity in Awake and Drug-responsive Vertebrates. X. Lin, S. Wang, X. Yu, Z. Liu, F. Wang, W. T. Li, S. H. Cheng, Q. Dai and P. Shi*. Lab on a Chip, 2015, 15(3):680-9. [pdf][Featured as cover of this issue]

19. Organ-targeted high-throughput in vivo biologics screen identifies vehicles for RNA delivery. T.Y. Chang, P. Shi*, J.D. Steinmeyer, I. Chatnuntawech, P. Tillberg, K.T. Love, P.M. Eimon, D.G. Anderson, M.F. Yanik. Integrative Biology, 2014,6, 897-898. [pdf] [Featured as front cover of this issue, Covered by MIT News]

20. Near-infrared Light Responsive Multi-compartmental Hydrogel Particles Synthesized through Droplets Assembly Induced by Superhydrophobic Surface. R. Luo, Y. Cao, P. Shi, C.H. Chen. Small, Jul 24, 2014. [pdf]

21. Poking Cells for Efficient Vector-free Intracellular Delivery Y. Wang, Y. Yang, L. Yan, S. Y. Kwok, W. Li, Z. Wang, X. Zhu, G. Zhu, W. Zhang, X. Chen and P. Shi*. Nature Communications, 5: 4466, 2014. [pdf]

22. Near-infrared light triggerable deformation-free polysaccharide double network hydrogels R.C. Luo, Z.H. Lim, W. Li, P. Shi, C.H. Chen. Chemical Communications, 2014 May 22. [pdf]

23. "NeuroArray: A Universal Interface for Patterning and Interrogating Neural Circuitry with Single Cell Resolution". W Li, Z. Xu, X. Lin, R. Luo, C. Chen, P. Shi*. Scientific Reports, 2014 4:4784. doi: 10.1038/srep04784. [pdf]

24. Influence of engineered surface on cell directionality and motility. Tang QY, Tong WY, Shi J, Shi P, Lam YW, Pang SW. Biofabrication, 2014 Mar;6(1):015011. [pdf]

25. Site-Specific Differentiation of Neural Stem Cell Regulated by Micropatterned Multicomponent Interfaces. Y. Wang, Z. Xu, L.C. Kam, P. Shi*. Advanced Healthcare Materials, 2014, Feb;3(2):214-20. [pdf] [Featured as cover of this issue, Highlighted by Materials Views China]

26. Concentration-Dependent Requirement for Local Protein Synthesis in Motor Neuron Subtype-Specific Response to Axon Guidance Cues S. Nedelec, M. Peljto, P. Shi, M.W. Amoroso, L.C. Kam, H. Wichterle. Journal of Neuroscience, 32(4):1496-506 2012. [pdf]

27. Synapse microarrays: identification of small-molecules that enhance synaptogenesis P. Shi, M.A. Scott, B. Ghosh, D. Wan, Z.Wissner-Gross, R. Mazitschek, S. Haggarty, M.F. Yanik. Nature Communications, 2: 510, 2011. [pdf] [This article was in spotlight on MIT homepage on Oct 26, 2011]

28. Large-scale plasmonic microarrays for label-free high-throughput screening T. Chang, M. Huang, A. A. Yanik, H. Tsai, P. Shi, S. Aksu, M. F. Yanik, H. Altug. Lab on a Chip, 11: 3596-3602, 2011. [pdf] [Front cover of this issue]

29. High-resolution extracellular stimulation of dispersed hippocampal culture with high-density CMOS multielectrode array based on non-Faradaic electrodes N. Lei, S. Ramarkrishnan, P. Shi, J Orcutt, L. Kam, K. Shepard. Journal of Neural Engineering, 8(4) 044003, 2011. [pdf]

30. Combined microfluidics/protein patterning platform for pharmalogical intervention of axon pathfinding P. Shi, S. Nedelec, H. Wichterle, L. Kam, Lab on a Chip. 10(8): 1005-10, 2010. [pdf]

31. Dynamic force generation by Neural Stem Cells P. Shi, K. Shen, S. Ghassemi, J. Hone, L. Kam. Cellular and Molecular Bioengineering, 2 (4): 464-474, 2009. [pdf] [Front cover of this issue, Outstanding paper from 2009 BMES annual meeting]

32. Self-aligned supported lipid bilayers for patterning cell-substrate interface K. Shen, J. Tsai, P. Shi, L. Kam. Journal of American Chemical Society. 131(37):13204-5, 2009. [pdf]

33. Local presentation of L1 and N-cadherin in multicomponent, microscale patterns differentially direct neuron function in vitro P. Shi, K. Shen, L. Kam. Developmental Neurobiology. 67(13):1765-76, 2007. [pdf]

34. Peptide-directed binding of quantum dots to integrins in human fibroblast P. Shi, H. Chen, M.R. Cho, M.A. Stroscio. IEEE Trans Nanobioscience. 5(1):15-9, 2006. [pdf]

35. Semiconductor nanostructures in biological applications D. Alexson, H. Chen, M. Cho, M. Dutta, Y. Li, P. Shi, A. Raichura, D. Ramadurai, S. Parikh, M.A. Stroscio, M. Vasudev. Journal of Physics: Condensed Matter.17: 637-656, 2005.

36. Optical and electrical properties of colloidal quantum dots in electrolytic environments: using biomolecular links in chemically-directed assembly of quantum dot networks M.A. Stroscio, M. Dutta, D. Ramadurai, P. Shi. Y. Li, M. Vasudev, D. Alexson, B. Kohanpour, A. Sethuraman, V. Saini, A. Raichura, J. Yang. Journal of Computational Electronics. 4: 21-25, 2005.

37. Tunable optical properties of colloidal quantum dots in electrolytic environments D. Ramadurai, B. Kohanpour, D. Alexson, P. Shi, A. Sethuraman, Y. Li, V. Saini, M. Dutta, M. A. Stroscio. IEE Proceedings in Nanobiotechnology. 151: 189-192, 2004.

38. Binding of semiconductor quantum dots to cellular integrins D. Alexson, Y. Li, D. Ramadurai, P. Shi, L. George, M. Uddin, P. Thomas, S. Rufo, M. Dutta, M.A. Stroscio. IEEE Transactions on Nanotechnology. 3: 86-92, 2004.

Book Chapter

Compartmentalized Synapse Microarray for High-Throughput Screening in Microfluidic and Compartmentalized Platforms for Neurobiological Research, Biffi Emilia (Ed.), Humana Press, 2015. (Invited)

Multiscale Integrative NeuroEngineering Laboratory

Link to full-size graphical abstractCity University of Hong Kong