# -joint first author; *-corresponding author
(11)J.Y. Huang, G.S.Huang, Z. Zhao, C. Wang, J.Z. Cui, E.M. Song, Y.F. Mei*, Nanomembrane-assembled nanophotontics and optoelectronics: from materials to applications, Journal of Physics: Condensed Matter, (2022).
(10)X. Li, C.C. Cao, C. Liu, W.H. He, K.B. Wu, Y. Wang, B.R. Xu, Z.A. Tian, E.M. Song, J.Z. Cui, G.S. Huang, C.L. Zheng, Z.F. Di, X. Cao*, Y.F. Mei*, Self-rolling of vandium dioxide nanomembranes for enhanced multi-level solar modulation, Nature Communications, 13, 7819 (2022).
(9)C.Y. You, B.F. Hu, B.R. Xu, Z.Y. Zhang, B.M. Wu, G.S. Huang, E.M. Song*, Y.F. Mei*, Foldable-circuit-enabled miniaturized multifunctional sensor for smart digital dust, Chip, 1, 100034 (2022).
(8)Huang, Q.Y.#, Wu, C.#, Hou, S.L., Yao, K.M., Sun, H., Wang, Y.F., Chen, Y.K., Law, J.H., Yang, M.X., Chan, H.Y., Roy, V., Zhao, Y.L., Wang, D., Song, E.M., Yu, X.G., Lao, L.X., Sun, Y., Li, W. J.*, Mapping of Spatiotemporal Auricular Electrophysiological Signals Reveals Human Biometric Clusters., Advanced Healthcare Materials, e2201404.
(7)Wu, B.M., Zhang, Z.Y., Wang, C., Song, E.M., Cui, J.Z., Huang, G.S., Zhou, P., Di, Z.F., Mei, Y.F.*, Progress and challenges on 3D tubular structures and devices of 2D materials, Applied Physics Letters, 121, 060503.
(6)Huang, Y.#, Li, H.#, Hu, T.#, Li, J.#, Yiu, C.K.#, Zhou, J.K., Li, J.Y., Huang, X.C., Yao, K.M., Qui, X., Zhou, Y., Li, D.F., Zhang, B.B., Shi, R., Liu, Y.M., Wong, T.H., Wu, M.G., Jia, H.L., Gao, Z., Zhang, Z.B., He, J.H., Zheng, M.J., Song, E.M., Wang, L.D., Xu, C.J.*, Yu, X.G.*, Implantable Electronic Medicine Enabled by Bioresorbable Microneedles for Wireless Electrotherapy and Drug Delivery, Nano Letters, 2022, 22, 14, 5944–5953.
(5)Song, E.M. #, Huang, Y.#, Huang, N.G.#, Mei, Y.F.*, Yu, X.G.*, Rogers, J.A.*(2022). Recent Advances in Microsystem Approaches for Mechanical Characterization of Soft Biological Tissues, Microsystems and Nanoengineering 8:77.
(4)Han, M.D.#, Guo, X.G.#, Chen, X.X.#, Liang, C.M., Zhao, H.B., Zhang, Q.H., Bai, W.B., Zhang, F., Wei, H.M., Wu, C.S., Cui, Q.H., Yao, S.L., Sun, B.H., Yang, Y.Y., Yang, Q.S., Ma, Y.H., Xue, Z.G., Kwak, J.W., Jin, T.Q., Tu, Q., Song, E.M., Tian, Z.A., Mei, Y.F., Fang, D.N., Zhang, H.X., Huang, Y.G.*, Zhang, Y.H.*, Rogers, J.A.*, Submillimeter-scale multimaterial terrestrial robots, Science Robotics, 7, eabn0602.
(3)Huang, X.C.#, Hu, L.#, Li J.Y.,# Huang, L.B.#, Yao, K.M., Yiu, C.K., Liu, Y.M., Wong, T.H., Li, D.F., Wu, M.G., Huang Y., Gao, Z., Zhou, J.K., Gao, Y.Y., Li, J., Jiao, Y.L., Zhang, B.B., Hu, B.F., Guo, Q.L., Song, E.M.*, Ye, R.Q.*, & Yu, X.G.*(2022). Transient, Implantable, Ultrathin Biofuel Cells Enabled by Laser-Induced Graphene and Gold Nanoparticles Composite. Nano Letters 22(8), pp. 3447-3456.
(2)Huang, X. C. #, Li, J. Y.#, Liu, Y. M. #, Wong, T. Z., Su, J. Y., Yao, K. M., Zhou, J. K., Huang, Y., Li, H., Li, D. F., Wu, M. G., Song, E. M., Han, S. J., & Yu, X. G*. (2022). Epidermal self-powered sweat sensors for glucose and lactate monitoring. Bio-Design and Manufacturing, vol. 5, pp. 201–209.
(1)Liu, Y. M. #, Huang, X. C. #, Zhou, J. K. #, Yiu, C. K. #, Song, Z., Huang, W., Nejad, S. K., Li, H., Wong, T. H., Yao, K. M., Zhao, L., Yoo, W., Park, W., Li, J. Y., Huang, Y., Lam, H. R., Song, E. M., Guo, X., Wang, Y. W., Dai, Z. X. *, Chang, L. Q. *, Li, W. J. *, Xie, Z. Q. *, & Yu, X. G *. (2022). Stretchable Sweat-Activated Battery in Skin-Integrated Electronics for Continuous Wireless Sweat Monitoring. Advanced Science, p. 2104635.