参与撰写学术著作《Encyclopedia of Tribology》(Springer出版）的“ Solid Lubrication”章节 。 近年发表代表性论文如下：

【1】Xiaoyi Dai, Hao Wang, Hao Wu, YaJia Pan, Dabing Luo*, Ammar Ahmed, Zutao Zhang*. A hybrid energy harvesting system for self-powered applications in shared bicycles[J]. Sustainable Energy Technologies and Assessments, 51(2022), 101891:1-13.

【2】Zhuojun Jiang, Changyuan Jia, Peng Zheng, Yuchen Gong , Ning Li, Ammar Ahmed, Zutao Zhang*, Luo Dabing*, A transverse deceleration energy harvester based on a sliding plate for self-powered applications in near-zero energy road tunnels[J]. Sustainable Cities and Society, 2022, 84: 104014.

【3】Lingbo Li, Wei Wang, Dabing Luo*, Zutao Zhang, Lingfei Qi and Li Xie , A high-efficiency energy regeneration shock absorber based on twin slider-crank mechanisms for self-powered sensors in railway cars[J]. Smart Materials and Structures, 2021: 015014.  

【4】Z.Y. Xiang, J.L. Mo*, H.H. Qian, W. Chen, D.B. Luo*, Z.R. Zhou. Friction-induced vibration energy harvesting of a high-speed train brake system via a piezoelectric cantilever beam[J]. Tribology International, 2021, 162: 107126.

【5】Li Ge, Li Yu, Weng Songfeng, Wan Hao, Luo Dabing*. Design and Simulation of a Novel 6-DOF Hybrid Mechanism Motion Platform for Pose Adjustment of Heavy Equipment[J]. Iranian Journal of Science and Technology - Transactions of Mechanical Engineering, 2023, 47(3): 1055-1078.

【6】Shengxin Wang, Wumao Peng, Weihua Kong, Luo Dabing*, Zhang Zutao, Li Longfei. An energy harvesting shock absorber for powering on-board electrical equipment in freight trains[J]. iScience, 2023, 26(9):107547.

【7】Ning Li, Changyuan Jia, Zheng Fang, Zhuojun Jiang, Ammar Ahmed, Daning Hao, Zutao Zhang*, Luo Dabing. A U-shaped kinetic energy harvester for application in a near-zero energy parking system[J]. Sustainable Cities and Society, 2022, 81:103866.

【8】Tingsheng Zhang, Xiaoping Wu, Yajia Pan, Dabing Luo, Yongsheng Xu, Zutao Zhang *，Yanping Yuan, Jinyue Yan*，Vibration Energy Harvesting System Based on Track Energy-Recycling Technology for Heavy-Duty Freight Railroads[J], Applied Energy, 2022, 323:119673.

【9】Hai Li, Xiaoping Wu, Zutao Zhang*, Xing Tan, Yajia Pan* , Chutian Dai, Dabing Luo, Ammar Ahmed, Yongsheng Xu, An extended-range wave-powered autonomous underwater vehicle applied to underwater wireless sensor network[J]. iScience, 2022, 25(8):104738.

【10】Minfeng Tang, Hao Cao, LingJi Kong, Ali Azam, Dabing Luo, Yajia Pan*, Zutao Zhang*. A hybrid kinetic energy harvester for applications in electric driverless buses[J]. International Journal of Mechanical Sciences, 2022, 223:107317.

【11】Peng Zheng, Zheng Fang, Hai Li, Yajia Pan, Dabing Luo, Zutao Zhang*. Multi-objective optimization of hybrid energy management system for expressway charger[J]. Journal of Energy Storage, 2022, 54:105233.

【12】Xiaoping Wu, Tingsheng Zhang, Jianyang Liu, Tianming Zhang, Weihua Kong, Yajia Pan*, Dabing Luo, Zutao Zhang*. A Vibration Energy Harvesting System for Self-Powered Applications in Heavy Railways[J]. Sustainable Energy Technologies and Assessments, 2022, 53:102373. 

 【13】Lei Han, Lei Wu, Fujian Liang, Hao Cao, Dabing Luo, Zutao Zhang*, Zexi Hua. A Novel End-to-End Model for Steering behavior Prediction of Autonomous Ego-Vehicles using 2 Spatial and Temporal Attention Mechanism. Neurocomputing, 2022, 490: 295-311. 

【14】Hao Wu, Hao Cao, Changyuan Jia, Ali Azam, Dabing Luo, Yajia ,Pan, Zutao Zhang*. A highly efficient multifunctional wind barrier based on PVDF for power generation in the Qinghai-Tibet railway. Energy Technology, 2022, 10(3): 2100760.

【15】Lingfei Qi, Hongye Pan, Yajia Pana, Dabing Luo, Jinyue Yan*,  Zutao Zhang*. A review of vibration energy harvesting in rail transportation field. iScience, 2022, 25(3): 103849. 

【16】Daning Hao, Lingfei Qi, Alaeldin M.Tairab, Ammar Ahmed, Ali Azam, Dabing Luo, Yajia Pan, Zutao Zhang*, Jinyue Yan*. Solar energy harvesting technologies for PV self-powered applications: A comprehensive review[J]. Renewable Energy, 188(2022): 678-697. 

【17】Hao Cao, Xiaoping Wu, Hao Wu, Yajia Pan, Dabing Luo, Ali Azama, Zutao Zhang*. A hybrid self-powered system based on wind energy harvesting for low-power sensors on canyon bridges[J]. International Journal of Precision Engineering and Manufacturing-Green Technology, 2022，234:109267.

【18】Ruoyu Sun, Jing Zhao*, Chuang Liu, Nengkai Yu, Jiliang Mo, YaJia Pan, Dabing Luo. Design and optimization of hybrid superhydrophobic–hydrophilic pattern surfaces for improving fog harvesting efficiency[J]. Progress in Organic Coatings, 2022, 171:107016.

【19】Hao Wang, Minyi Yi, Xiaohui Zeng, Tingsheng Zhang, Dabing Luo, Zutao Zhang*, A hybrid, self-adapting drag-lift conversion wind energy harvesting system for railway turnout monitoring on the Tibetan Plateau[J]. Sustainable Energy Technologies and Assessments, 2021, 46: 101262.

【20】Mengdie Sun, Wei Wang, Peng Zheng, Dabing Luo, Zutao Zhang*,A novel road energy harvesting system based on a spatial double V-shaped mechanism for expressway near-zero-energy toll station[J]. Sensors and Actuators A: Physical, 2021, 323: 112648.

【21】Peng Zheng, Lingfei Qi, Mengdie Sun, Dabing Luo,  Zutao Zhang*, A novel wind energy harvesting system with hybrid mechanism for self-powered applications in subway tunnels[J]. Energy, 2021, 227: 120446.

【22】晏海静, 罗大兵, 漆令飞. 城市地下综合管廊巡检小车全转向系统研究. 机械设计与制造. 2021(01): 159-162.

【23】Ruoyu Sun, Jing Zhao*, Zhen Li, Na Qin*, Jiliang Mo, YaJia Pan, Dabing Luo. Robust superhydrophobic aluminum alloy surfaces with anti-icing ability, thermostability, and mechanical durability[J]. Progess in Organic Coatings, 2020,147: 1-11.

【24】Ruoyu Sun, Jing Zhao*, Zhen Li, Jiliang Mo, YaJia Pan, Dabing Luo. Preparation of mechanically durable superhydrophobic aluminum surface by sandblasting and chemical modification[J]. Progess in Organic Coatings, 2019,133: 77-84.

【25】吕常伟, 罗大兵*, 杨杰, 门向南, 曾一畔. 飞机蒙皮拉形机模具快速更换系统设计. 锻压技术, 2019, 44(11): 140-145.

【26】赵方舟, 罗大兵*, 陈达，王易红. 基于Solid Works的计算机辅助公差优化设计研究. 机械设计与制造, 2019(10): 15-19.

【27】Yongjian Li, Weihua Zhang*, Qing Xiong, Dabing Luo, Guiming Mei, Tao Zhang. A rolling bearing fault diagnosis strategy based on improved multiscale permutation entropy and least squares SVM[J]. Journal of Mechanical Science and Technology, 2017, 31: 2711–2722.

【28】罗大兵. 工作温度对压力喷涂二硫化钼涂层摩擦学性能的影响. 润滑与密封, 2015, 40(1): 16-19.

【29】黄清健, 吴圣川, 喻程, 罗大兵. 基于ANSYS的MV3车轮焊接变形分析. 计算机辅助工程, 2014, 23(3): 35-43.

【30】D.B. Luo*, V. Fridrici, Ph. Kapsa. A systematic approach for the selection of tribological coatings. Wear, 2011, 271(9-10): 2132-2143.

【31】D.B. Luo*, V. Fridrici, Ph. Kapsa. Evaluating and predicting durability of bonded solid lubricant coatings under fretting conditions. Tribology International, 2011, 44(11): 1577-1582.

【32】D.B. Luo*, V. Fridrici, Ph. Kapsa. Selecting solid lubricant coatings under fretting conditions. Wear, 2010, 268(5-6): 816-827.

【33】D.B. Luo*, V. Fridrici, Ph. Kapsa. Relationships between the fretting wear behavior and the ball cratering resistance of solid lubricant coatings. Surface and Coatings Technology, 2010, 204(8):1259-1269.

【34】D. B. Luo*, V. Fridrici, Ph. Kapsa, et al. Effect of contact configuration on the durability and friction coefficient of pressure - sprayed MoS2 coatings under fretting conditions. Lubrication Science, 2009, 21(5):193-209.

【35】D.B. Luo, V. Fridrici, Ph. Kapsa, et al. An energy approach for helping the selection of solid lubrication coatings under fretting conditions, Proceedings of the ASME/STLE International Joint Tribology Conference 2009, p67-69, Oct.2009, Memphis, USA.

【36】D.B. Luo, V. Fridrici, Ph. Kapsa, et al. Comportement tribologique de revêtements de MoS2 pulvérisés sous pression dans les conditions de fretting et de glissement rotatif unidirectionnel. 20èmes Journées Francophones de Tribologie, May 2008, Lyon, France.

【37】 V. Fridrici, D.B. Luo, Ph. Kapsa. Methodology of selection of coatings for tribological applications: database approach. 38th International Conference on Metallurgical Coatings and Thin Films, May 2011, San Diego, USA.