PUBLICATIONS

2020
Kang JB, Rong X, Li Q, Wang XQ. Observing near-infrared/ultraviolet responses within GaN/AlN superlattice for dual-band detection. AOPC 2020: Infrared Device and Infrared Technology (EI, Conf. Paper, DOI: 10.1117/12.2579830). 2020:115630J.
Wang D, Chen Z, Su J, Wang T, Zhang B, Rong X, Wang P, Tan W, Guo S, Zhang J, et al. Controlling Phase-Coherent Electron Transport in III-Nitrides: Toward Room Temperature Negative Differential Resistance in AlGaN/GaN Double Barrier Structures. Advanced Functional Materials. 2020:2007216 (Online).
Liu S, Luo W, Li D, Yuan Y, Tong W, Kang J, Wang Y, Li D, Rong X, Wang T, et al. Sec-Eliminating the SARS-CoV-2 by AlGaN Based High Power Deep Ultraviolet Light Source. Advanced Functional Materials. 2020:2008452 (Online).
Sheng B, Schmidt G, Bertram F, Veit P, Wang Y, Wang T, Rong X, Chen Z, Wang P, Bläsing J, et al. Individually resolved luminescence from closely stacked GaN/AlN quantum wells. Photonics Research. 2020;8:610–615.
Liu F, Yu Y, Zhang Y, Rong X, Wang T, Zheng X, Sheng B, Yang L, Wei J, Wang X, et al. Hexagonal BN-Assisted Epitaxy of Strain Released GaN Films for True Green Light-Emitting Diodes. Advanced Science. 2020;7:2000917.
Liu F, Rong X, Yu Y, Wang T, Sheng BW, Wei JQ, Liu SF, Yang JJ, Bertram F, Xu FJ, et al. Thermally annealed wafer-scale h-BN films grown on sapphire substrate by molecular beam epitaxy. Applied Physics Letters. 2020;116:142104.
Liu F, Zhang Z, Rong X, Yu Y, Wang T, Sheng B, Wei J, Zhou S, Yang X, Xu F, et al. Graphene-Assisted Epitaxy of Nitrogen Lattice Polarity GaN Films on Non-Polar Sapphire Substrates for Green Light Emitting Diodes. Advanced Functional Materials. 2020;30:2001283.
Deng M, Li Z, Rong X, Luo Y, Li B, Zheng L, Wang X, Lin F, Meixner AJ, Braun K, et al. Light-Controlled Near-Field Energy Transfer in Plasmonic Metasurface Coupled MoS2 Monolayer. Small. 2020;16:2003539.
Luo Y, Shan H, Gao X, Qi P, Li Y, Li B, Rong X, Shen B, Zhang H, Lin F, et al. Photoluminescence enhancement of MoS2/CdSe quantum rod heterostructures induced by energy transfer and exciton–exciton annihilation suppression. Nanoscale Horizons. 2020;5:971–977.
黄励勤, 于明鑫, 荣新✉. 基于普拉托-瑞利不稳定性理论分析“吹泡泡”的机制. 物理与工程 [Internet]. 2020;30:117-121. DOI
荣新, 李智, 张朝晖. 高校物理实验教学的比较研究. 物理实验 [Internet]. 2020;40:22-27. DOI
2019
Wang P, Wang T, Wang H, Sun X, Huang P, Sheng B, Rong X, Zheng X, Chen Z, Wang Y, et al. Experimental Evidence of Large Bandgap Energy in Atomically Thin AlN. Advanced Functional Materials. 2019;29:1902608.
Wang Y, Rong X, Ivanov S, Jmerik V, Chen Z, Wang H, Wang T, Wang P, Jin P, Chen Y, et al. Deep Ultraviolet Light Source from Ultrathin GaN/AlN MQW Structures with Output Power Over 2 Watt. Advanced Optical Materials. 2019;7:1801763.
Wang D, Chen ZY, Wang T, Yang LY, Sheng BW, Liu HP, Su J, Wang P, Rong X, Cheng JY, et al. Repeatable asymmetric resonant tunneling in AlGaN/GaN double barrier structures grown on sapphire. Applied Physics Letters. 2019;114:073503.
Wang D, Su J, Chen Z, Wang T, Yang L, Sheng B, Lin S, Rong X, Wang P, Shi X, et al. Repeatable Room Temperature Negative Differential Resistance in AlN/GaN Resonant Tunneling Diodes Grown on Sapphire. Advanced Electronic Materials. 2019;5:1800651.
Wei J, Kim K, Liu F, Wang P, Zheng X, Chen Z, Wang D, Imran A, Rong X, Yang X, et al. β-Ga2O3 thin film grown on sapphire substrate by plasma-assisted molecular beam epitaxy. Journal of Semiconductors. 2019;40:012802.
荣新, 刘国超, 栾弘义, 王子豪, 张朝晖. 二维材料的变温拉曼光谱研究. 物理实验 [Internet]. 2019;39:1. DOI
2018
Zheng X, Liang H, Wang P, Sun X, Chen Z, Wang T, Sheng B, Wang Y, Chen L, Wang D, et al. Effect of indium droplets on growth of InGaN film by molecular beam epitaxy. Superlattices and Microstructures. 2018;113:650–656.
Liu H, Wang X, Chen Z, Zheng X, Wang P, Sheng B, Wang T, Rong X, Li M, Zhang J, et al. High-electron-mobility InN epilayers grown on silicon substrate. Applied Physics Letters. 2018;112:162102.
Liu S, Sheng B, Wang X, Dong D, Wang P, Chen Z, Wang T, Rong X, Li D, Yang L, et al. Molecular beam epitaxy of single-crystalline aluminum film for low threshold ultraviolet plasmonic nanolasers. Applied Physics Letters. 2018;112:231904.

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