^# -joint first author; ^*-corresponding author

（9）Li, J.,^#Song, E.,^# Chiang, C.-H., Yu, K. J., Koo, J., Du, H., Zhong, Y., Hill, M., Wang, C., Zhang, J., Chen, Y., Tian, L., Zhong, Y., Fang, G., Viventi, J., Rogers, J. A.^* (2018) Conductively coupled flexible silicon electronic systems for chronic neural electrophysiology. PNAS, vol. 115, pp. E9542-E9549.

（8）Won, S. M.,^#Song E.,^# Zhao, J., Li, J., Rivnay, J., Rogers, J. A.^* (2018) Recent advances in materials, devices, and systems for neural interfaces. Advanced Materials, vol. 30, p. 1800534.

（7） Song, E.,^#Li, R.,^# Jin, X., Du, H., Huang, Y., Zhang, J., Xia, Y., Fang, H., Lee, Y. K., Yu, K.J., Chang, J.-K., Mei, Y., Alam, M.A., Huang, Y., Rogers, J. A.^* (2018) Ultrathin trilayer assemblies as long-lived barriers against water and ion penetration in flexible bioelectronic systems. ACS Nano, vol. 12, pp. 10317-10326.

（6） Song, E.,^#Lee, Y. K.,^#Li, R.,^#Li, J.,^# Jin, X., Yu, K. J., Xie, Z., Fang, H., Zhong, Y., Du, H., Zhang, J., Fang, G., Kim, Y., Yoon, Y., Alam, M. A., Mei, Y., Huang, Y., Rogers, J. A.^*(2018) Transferred, ultra-thin oxide bilayers as biofluid barriers for flexible electronic implants. Advanced Functional Materials, vol. 28, p. 1702284.

（5） Li, G.,^#Song, E.,^# Huang, G., Guo, Q., Ma, F., Zhou, B., Mei, Y.^*(2018) High temperature triggered thermal degradable electronics based on flexible silicon nanomembranes.Advanced Functional Materials, vol. 28, p. 1801448.

（4）Li, G.,Song,E., Huang, G., Pan, R., Guo, Q., Ma, F., Zhou, B., Di, Z., Mei, Y.^*(2018): Flexible transient phototransistors by use of wafer-compatible transferred silicon nanomembranes. Small,vol. 14, p. 1802985.

（3） Pan, R.,^# Guo, Q.,^#* Li, G., Song, E., Huang, G., An, Z., Di, Z., Mei, Y.^*(2018): Schottky barrier modulation in surface nano-roughened silicon nanomembranes for high-performance optoelectronics. ACS Applied Materials & Interfaces, vol.10, pp. 41497-41503.

（2） Li, G., Song, E., Guo, Q., Huang, G., Mei Y.^*(2018): Transfer techniques for single-crystal silicon/germanium nanomembranes and their application in flexible electronics.SCIENTIA SINICA Informationis, vol.48, pp. 670-687.

（1） Jin, X.,Song,E., Rogers, J.A., Alam, M.A.^* (2018) Principles of multi-layer encapsulant design for wearable and implantable systems. Conference Poster: MRS Fall Meeting.