期刊论文:
[1] J. Wang, Y. Yang, N. Wang, K. Yu, G. V. Hartland, and G. P. Wang, Long lifetime and coupling of acoustic vibrations of gold nanoplates on unsupported thin films, Journal of Physical Chemistry A 123, 10339 (2019).
[2] K. Yu, J. Wang, J. Chen, and G. P. Wang, Inhomogeneous photocarrier dynamics and transport in monolayer MoS2 by ultrafast microscopy, Nanotechnology 30, 485701 (2019).
[3] H. Song, L. Sun, B. Hong and G. P. Wang, Magnetic mirror by exciting magnetic quadrupole in dielectric metasurface, Journal of Optics 21, 125101 (2019).
[4] L. Sun, K. W. Yu, and G. P. Wang, Inverse design of broadband epsilon-near-zero metasurface with nanoscale airtube superlattice based on the Bergman-Milton spectral representation, Physical Review B 100, 125429 (2019).
[5] X. Li, Y. Sun, Z. Zhang, N. Feng, H. Song, Y. Liu, L. Hai, J. Cao, G. P. Wang, Visible light-driven multi-motion modes CNC/TiO2 nanomotors forhighly efficient degradation of emerging contaminants, Carbon 155, 195 (2019).
[6] J. Wang, K. Yu, Y. Yang, G. V. Hartland, J. E. Sader, and G. P. Wang, Strong vibrational coupling in room temperature plasmonic resonators, Nature Communications 10, 1527 (2019).
[7] N. Wang and G. P. Wang, Effective medium theory with closed-form expressions for bi-anisotropic optical metamaterials, Optics Express 27, 23739 (2019).
[8] D. Xu, C. Zhan, Y. Sun, Z. Dong, G. P. Wang, and X. Ma, Turn-number-dependent motion behavior of catalytic helical carbon micro/nanomotors, Chemistry--An Asian Journal 14, 2497 (2019).
[9] N. Feng, Y. Zhang, X. Tian, J. Zhu, W. T. Joines, and G. P. Wang, System-combined ADI-FDTD method and its electromagnetic applications in microwave circuits and antennas, IEEE Transactions on Microwave Theory and Techniques 67, 3260 (2019).
[10] Z. Y. Zhang, K. Yu, and G. P. Wang, Edge effect on the population of free carriers and excitons in single-crystal CH3NH3PbBr3 perovskite nanomaterials, Advanced Electronic Materials 5, 1900216 (2019).
[11] J. Wu, Y. M. Sun, Z. Wu, X. Li, N. Wang, K. Tao, and G. P. Wang, Carbon nanocoil-based fast-response and flexible humidity sensor for multifunctional applications, ACS Applied Materials & Interfaces 11, 4242 (2019).
[12] J. Liu, B. Shabbir, C. Wang, T. Wan, Q. Ou, P. Yu, A. Tadich, X. Jiao, D. Chu, D. Qi, D. Li, R. Kan, Y. Huang, Y. Dong, J. Jasieniak, Y. Zhang, and Q. Bao, Flexible, printable soft-X-ray detectors based on all-inorganic perovskite quantum dots, Advanced Materials 31, 1901644 (2019).
[13] Y. Zhang, C.-K. Lim, Z. Dai, G. Yu, J.W. Haus, H. Zhang, P.N. Prasad, Photonics and optoelectronics using nano-structured hybrid perovskite media and their optical cavities, Physics Reports 795, 1 (2019).
[14] Q. Khan, A. Subramanian, I. Ahmed, M. Khan, A. Nathan, G. P. Wang, L. Wei, J. Chen, Y. Zhang, and Q. Bao, Overcoming the electroluminescence efficiency limitations in quantum-dot light-emitting diodes, Advanced Optical Materials 20, 1900695 (2019).
