Publications

First-author, co-author, and corresponding author publications in top peer-reviewed journals including Science, PNAS, Nature Materials, Nature Methods, Nature Nanotechnology, Nano Letters, Advanced Materials, Angewandte Chemie, etc. 

# denotes equal contribution, * denotes corresponding.

29.      M. Momin, L. Feng, S. Ahmed, J. Ren, A. Hossain, S. Zhang* and T. Zhou*, “3D Printed Customizable, Soft and Stretchable Devices for Neural Recordings at Single-Neuron Leve.Device, (2024) (accepted).

28.      S. Ahmed, M. Momin, J. Ren, H. Lee and T. Zhou*, “Self‐Assembly Enabled Printable Asymmetric Self‐Insulated Stretchable Conductor for Human Interface.”. Advanced Materials, (2024): 2400082.

27.      S. Xu, S. Ahmed, M. Marzia, A. Hossain, and T. Zhou*, "Unleashing the potential of 3D printing soft materials." Device 1.3, (2023): 100067.

26.      S. Xu, M. Momin, S. Ahmed, A. Hossain, L. Veeramuthu, A. Pandiyan, C. Kuo*, and T. Zhou*, “Illuminating the Brain: Advances and Perspectives in Optoelectronics for Neural Activity Monitoring and Modulation.” Advanced Materials 35, (2023): 2303267.

25.      T. Zhou*, "3D Printable Hydrogel Bioelectronic Interfaces for Various Organs," 2023 IEEE International Flexible Electronics Technology Conference (2023): 01-02, doi: 10.1109/IFETC57334.2023.10254791. 

24.      A. Pandiyan, L. Veeramuthu, Z.L. Yan, Y.C. Lin, C.H. Tsai, S.T. Chang, W.H. Chiang, S. Xu, T. Zhou* and C.C. Kuo*, “A Comprehensive Review on Perovskite and its Functional Composites in Smart Textiles: Progress, Challenges, Opportunities, and Future Directions.” Progress in Materials Science (2023): 101206.

23.      Y. Luo, M. Abidian, J. Ahn, D. Akinwande, …, T. Zhou, ..., X. Chen, et al. “Technology Roadmap for Flexible Sensors.” ACS Nano 17(6), (2023): 5211-5295.

22.      T. Zhou#, H. Yuk#, F. Hu, J. Wu, F. Tian, H. Roh, Z. Shen, G. Gu, J. Xu, B. Lu and X. Zhao, "3D printable high performance conducting polymer hydrogel for all-hydrogel bioelectronic interfaces." Nature Materials, 22.7, (2023): 895-902.

21.      T. Zhou, H. Yuk, "Omnidirectional Printing of Stretchable Electronics", Nature Electronics 6, (2023): 270–271.

20.      T. Zhou, H. Yuk, J. Wu and X. Zhao, "Hybrid nanofiber electronics." TBD (in preparation)

19.      T. Zhou#, R. Viveros#, X. Yang#, J.M. Lee#, G. Hong, T.-M. Fu, H.-G. Park and C.M. Lieber, (in revision)

18.      X. Kuang, M. Arıcan, T. Zhou, X. Zhao, S.Y. Zhang, "Functional Tough Hydrogels: Design, Processing, and Biomedical Applications." Accounts of Materials Research 4, (2023): 101–114.

17.     C. Wang, X. Chen, L. Wang, M. Makihata, H. Liu, T. Zhou and X. Zhao, "Bioadhesive Ultrasound For Long-term Continuous Imaging Of Diverse Organs." Science 377, (2022): 517-523.

16.      R.D. Viveros#, T. Zhou#, G. Hong, T.-M. Fu, H.Y.G. Lin and C.M. Lieber, "Advanced one- and two-dimensional mesh designs for injectable electronics." Nano Letters 19, (2019): 4180−4187.

15.      X. Yang#, T. Zhou#, T. Zwang#, G. Hong, Y. Zhao, R. Viveros, T.-M. Fu, T. Gao, and C.M. Lieber, "Bioinspired neuron-like electronics." Nature Materials 18, (2019): 510–517.

14.      T.G. Schuhmann, T. Zhou, G. Hong, J.M. Lee, T.-M. Fu, H.-G. Park and C.M. Lieber, "Syringe-injectable mesh electronics for stable chronic rodent electrophysiology." Journal of Visualized Experiments 137, (2018): e58003.

13.      G. Hong, T.-M. Fu, M. Qian, R.D. Viveros, X. Yang, T. Zhou, J.M. Lee, H.-G. Park, J.R. Sanes and C.M. Lieber, "A method for single-neuron chronic recording from the retina in awake mice." Science 360, (2018): 1447-1451.

12.      G. Hong, X. Yang, T. Zhou and C.M. Lieber, "Mesh electronics: a new paradigm for tissue-like brain probes." Current Opinion in Neurobiology 50, (2018): 33–41.

11.   T. Zhou, G. Hong, T. -M. Fu, X. Yang, T. G. Schuhmann, R. D. Viveros, and C. M. Lieber. "Syringe-injectable mesh electronics integrate seamlessly with minimal chronic immune response in the brain." PNAS 114, (2017): 5894-5899.

10.   T.-M. Fu, G. Hong, R. Viveros, T. Zhou and C.M. Lieber, "Highly scalable multichannel mesh electronics for stable chronic brain electrophysiology." PNAS 114, (2017): E10046-E10055.

9.   T.-M. Fu#, G. Hong#, T. Zhou#, T. G. Schuhmann, R. D. Viveros, and C. M. Lieber. "Stable long-term chronic brain mapping at the single-neuron level." Nature Methods 13, (2016): 875–882.

8.   P. Chen, T. Zhang, T. Zhou, and D. Liu. "Number-controlled spatial arrangement of gold nanoparticles with DNA dendrimers." RSC Advances 6, (2016): 70553-70556.

7.   L. Niu, X. Yang, W. Pan, T. Zhou, D. Liu, C. Mao, and D. Liang. "Effects of structural flexibility on the kinetics of DNA Y-junction assembly and gelation." Langmuir 32, (2016): 12862-12868.

6.   G. Hong, T.-M. Fu, T. Zhou, T. G. Schuhmann, J. Huang, and C. M. Lieber. "Syringe injectable electronics: precise targeted delivery with quantitative input/output connectivity." Nano Letters 15, (2015): 6979-6984.

5.   J. Liu, T.-M. Fu, Z. Cheng, G. Hong, T. Zhou, L. Jin, M. Duvvuri, Z. Jiang, P. Kruskal, C. Xie, Z. Suo, Y. Fang, and C. M. Lieber. "Syringe-injectable electronics." Nature Nanotechnology 10, (2015): 629-636.

4.   T. Zhou, Y. Wang, Y. Dong, C. Chen, D. Liu, and Z. Yang. "Tetrahedron DNA dendrimers and their encapsulation of gold nanoparticles." Bioorganic & Medicinal Chemistry 22, (2014): 4391-4394.

3.   Y. Dong, Y. Sun, L. Wang, D. Wang, T. Zhou, Z. Yang, Z. Chen, Q. Wang, Q. Fan, and D. Liu. "Frame‐Guided Assembly of Vesicles with Programmed Geometry and Dimensions." Angewandte Chemie International Edition 53, (2014): 2607-2610.

2.   J. Jin, Y. Xing, Y. Xi, X. Liu, T. Zhou, X. Ma, Z. Yang, S. Wang, and D. Liu. "A triggered DNA hydrogel cover to envelop and release single cells." Advanced Materials 25, (2013): 4714-4717.

1.   T. Zhou#, P. Chen#, L. Niu, J. Jin, D. Liang, Z. Li, Z. Yang, and D. Liu. "pH-Responsive Size-Tunable Self-Assembled DNA Dendrimers." Angewandte Chemie International Edition 124, (2012): 11433-11436.