For the most up-to-date publications, please check Google Scholar.


  • Jiang, Y.,* Trotsyuk, A. A.,* Niu, S.,* Henn, D., Chen, K., Shih, C.-C., Larson, M. R., Mermin-Bunnell, A. M., Mittal, S., Lai, J.-C., Beard, E., Saberi, A., Jing, S., Zhong, D., Steele, S. R., Sun, K., Jain, T., Zhao, E., Viana, W. G., Tang, J., Sivaraj, D., Padmanabhan, J., Rodrigues, M., Perrault, D. P., Leeolou, M. C., Bonham, C. A., Kwon, S. H., Kussie, H. C., Gurusankar, G., Januszyk, M., Gurtner, G. C. & Bao Z. Wireless, closed-loop, smart bandage with integrated sensors and stimulators for advanced wound care and accelerated healing, Nature Biotechnology, 41, 652–662 (2023). (Link)
  • Wang, W.,* Jiang, Y.,* Zhong, D., Zhang, Z., Choudhury, S., Lai, J.-C., Gong, H., Niu, S., Yan, X., Zheng, Y., Shih, C.-C., Ning, R., Lin, Q., Li, D., Kim, Y.-H., Kim, J., Wang, Y.-X., Zhao, C., Xu, C., Ji, X., Nishio, Y., Lyu, H., Tok, J. B.-H. & Bao, Z. Neuromorphic sensorimotor loop embodied by monolithically integrated, low-voltage, soft e-skin, Science 380, 735–742 (2023). (Link)
  • Zhou, W.,* Jiang, Y.,* Xu, Q., Chen, L., Qiao, H., Wang, Y.-X., Lai, J.-C., Zhong, D., Zhang, Y., Li, W., Du, Y., Wang, X., Lei, J., Dong, G., Guan, X., Ma, S., Kang, P., Yuan, L., Zhang, M., Tok, J., B.-H., Li, D., Bao, Z. & Jia, W. Soft and stretchable organic bioelectronics for continuous intraoperative neurophysiological monitoring during microsurgery, Nature Biomedical Engineering doi:10.1038/s41551-023-01069-3 (2023). (Link)


  • Jiang, Y.,* Zhang, Z.,* Wang, Y.-X.,* Li, D.,* Coen, C.-T., Hwaun, E., Chen, G., Wu, H.-C., Zhong, D., Niu, S., Wang, W., Saberi, A., Lai, J.-C., Wu, Y., Wang, Y., Trotsyuk, A. A., Loh, K. Y., Shih, C.-C., Xu, W., Liang, K., Zhang, K., Bai, Y., Gurusankar, G., Hu, W., Jia, W., Cheng, Z., Dauskardt, R. H., Gurtner, G. C., Tok, J. B.-H., Deisseroth, K., Soltesz, I. & Bao, Z. Topological supramolecular network enabled high-conductivity, stretchable organic bioelectronics, Science, 375, 1411-1417 (2022). (Link)
  • Zhang, Z.,* Wang, W.,* Jiang, Y.,* Wang, Y.-X.,* Wu, Y., Lai, J.-C., Niu, S., Xu, C., Shih, C.-C., Wang, C., Yan, H., Galuska, L., Prine, N., Wu, H.-C., Zhong, D., Chen, G., Matsuhisa, N., Zheng, Y., Yu, Z., Wang, Y., Dauskardt, R. H., Gu, X., Tok, J. B.-H. & Bao, Z. High-brightness all-polymer stretchable LED with charge-trapping dilution, Nature, 603, 624-630 (2022). (Link


  • Zhang, Q.,* Jiang, Y.,* Chen, L., Chen, W., Li, J., Cai, Y., Ma, C., Xu, W., Lu, Y., Jia, X. & Bao Z. Ultra-Compliant and Tough Thermochromic Polymer for Self-Regulated Smart Windows, Advanced Functional Materials 31, 2100686 (2021). (Link)


  • Gao, X.,* Jiang, Y.,* Lin, Y.,* Kim, K.-H.,* Fang, Y., Yi, J. S., Meng, L. Y., Lee, H.-C., Lu, Z., Leddy, O., Zhang, R., Tu, Q., Feng, W., Nair, V., Griffin, P. J., Shi, F. Y., Shekhawat, G. S., Dinner, A. R., Park, H.-G., & Tian, B. Structured silicon for revealing transient and integrated signal transductions in microbial systems, Science Advances 6, eaay2760 (2020). (Link)
  • Fang, Y.,* Han, E.,* Zhang, X.-X.,* Jiang, Y.,* Lin, Y., Shi, J., Wu, J., Meng, L., Gao, X., Griffin, P. J., Xiao, X., Tsai, H.-M., Zhou, H., Zuo, X., Zhang, Q., Chu, M., Zhang, Q., Gao, Y., Roth, L. K., Bleher, R., Ma, Z., Jiang, Z., Yue, J., Kao, C.-M., Chen, C.-T., Tokmakoff, A., Wang, J., Jaeger, H. M. & Tian, B. Dynamic and Programmable Cellular-Scale Granules Enable Tissue-like Materials, Matter 2, 948-964 (2020). (Link)


  • Jiang, Y.,* Parameswaran, R.,* Li, X.,* Carvalho-de-Souza, J. L.,* Gao, X., Meng, L., Bezanilla, F., Shepherd, G. M. G. & Tian, B. Nongenetic optical neuromodulation with silicon-based materials, Nature Protocols 14, 1339–1376 (2019). (Link)


  • Jiang, Y.,* Li, X.,* Liu, B.,* Yi, J., Fang, Y., Shi, F., Gao, X., Sudzilovsky, E., Parameswaran, R., Koehler, K., Nair, V., Yue, J., Guo, K., Fang, Y., Tsai, H.-M., Freyermuth, G., Wong, R. C. S., Kao, C.-M., Chen, C.-T., Nicholls, A. W., Wu, X., Shepherd, G. M. G., & Tian, B. Rational design of silicon structures for optically controlled multiscale biointerfaces, Nature Biomedical Engineering 2, 508-521 (2018). (Link)
  • Jiang, Y. & Tian, B. Inorganic semiconductor biointerfaces, Nature Reviews Materials 3, 473-490 (2018). (Link)
  • Fang, Y.,* Jiang, Y.,* Ledesma, H. A.,* Yi, J., Gao, X., Weiss, D. E., Shi, F., & Tian., B. Z. Texturing Silicon Nanowires for Highly Localized Optical Modulation of Cellular Dynamics, Nano Letters 18, 4487-4492 (2018). (Link)


  • Fang, Y.,* Jiang, Y.,* Cherukara, M. J.* Shi, F., Koehler, K., Freyermuth, G., Isheim, D., Narayanan, B., Nicholls, A. W., Seidman, D. N., Sankaranarayanan, S. K. R. S., & Tian, B. Alloy-assisted deposition of three-dimensional arrays of atomic gold catalyst for crystal growth studies, Nature Communications 8, 2014 (2017). (Link)


  • Jiang, Y.,* Carvalho-de-Souza, J. L.,* Wong, R. C. S.,* Luo, Z., Isheim, D., Zuo, X., Nicholls, A. W., Jung, I. W., Yue, J., Liu, D.-J., Wang, Y., De Andrade, V., Xiao, X., Navrazhnykh, L. Weiss, D. E., Wu, X., Seidman, D. N., Bezanilla, F. & Tian, B. Heterogeneous silicon-based mesostructures for phospholipid-supported transient bioelectric systems, Nature Materials 15, 1023-1030 (2016). (Link)


  • Luo, Z.,* Jiang, Y.,* Myers, B. D., Isheim, D., Wu, J., Zimmerman, J. F., Wang, Z., Li, Q., Wang, Y., Chen, X., Seidman, D. N. & Tian, B. Atomic gold-enabled three-dimensional lithography for silicon mesostructures, Science 348, 1451-1455 (2015). (Link)

*: These authors contributed equally to this work.

Scroll to Top