科研成果(学术论文) |

2023年 1. Bao R, Luo H, Liu L, et al. Simultaneously enhanced strength and ductility of copper composites by tailoring the intragranular carbonized polymer dots distribution[J]. Composites Communications, 2023, 38: 101491.Zhou Y, Liu L, Bao R, et al. Achieving good strength‐plasticity compatibility in Cu composites via carbon nanotube (CNT)‐induced heterogeneous bimodal structure[J]. Advanced Engineering Materials. 2. Huang X, Bao L, Bao R, et al. Reinforced copper matrix composites with highly dispersed nano size TiC in-situ generated from the Carbon Polymer Dots[J]. Advanced Powder Materials, 2023, 2(2): 100090. 3. Nie Y, Bao R, Liu L, et al. Constructing a perfect, efficient heterojunction catalyst with HNO3 protonated C3N4 and GO-derived GOQDs via electrostatic self-assembly[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2023, 657: 130527. 4. Ma R, He Y, Liu L, et al. Improved mechanical-physical performances of copper composites with reduced graphene oxide and carbonized polymer dots as multi-scale synergetic reinforcements[J]. Vacuum, 2023, 211: 111964. 5. Han Y, Bao R, Yi J, et al. One-step synthesis of tungsten-doped carbonated polymer dots with high sensitivity to Fe (III) and pH environments[J]. Materials Today Communications, 2023: 105317. 6. Li Z, Xin S, Zhang Y, et al. Boosting elementary steps kinetics towards energetic alkaline hydrogen evolution via dual sites on phase-separated Ni–Cu–Mn/hydroxide[J]. Chemical Engineering Journal, 2023, 451: 138540. 2022年 (13篇) 2021年 (14篇) 2020年 (10篇) 2019年 (16篇) 2018年 (19篇) 2017年 (8篇) 2016年以前(15篇) |