【sp】Highly-dispersed Boron-doped Graphene Nanosheets Loaded with TiO2Nanoparticles for Enhancing CO2 Photoreduction通过超声混合法将P25和BG复合，由于Ti-O-C键的形成将石墨烯切割成20-50nm的纳米片，用于光催化还原二氧化碳，由于BG具有一定的p型半导体特征并且具有很好的电子传导能力，而P25是n型半导体，形成的pn结促进了光生电子和空穴的分离，光催化还原二氧化碳速率为17umol/g/h，明显高于P25和P25-G。【C h e m . C o m m u n . , 2014,5 0, 6637】Highly-dispersed boron-doped graphene nanoribbons with enhanced conductibility and photocatalysis真空加热还原法制备B掺杂的石墨烯材料，性质研究表明BG有良好的导电性和光活性，微观结构为B-GNR纳米带结构，ZZ和AC边缘裸露，使得带宽可控。【C h e m . C o m m u n . , 2014,5 0, 3328】Boron-doped graphene as a high-efficiencycounter electrode for dye-sensitized solar cells应用B2O3和GO煅烧生成无氧的BG，应用于染料敏化电池发现其电催化活性堪比Pt电极，有望替代贵金属电极，太阳能转化效率6.73%。催化I3-还原成I-。【J. Phys. Chem. C 2014, 118, 22412 22418】B Doped Graphene as Catalyst To Improve Charge Rate of Lithium Air Battery第一性原理热力学计算证明BG能够减小0.4eV的OER反应能垒。根源：？【CM】B Doped Graphene as an Electrochemically Superior Metal-Free Cathode Material As Compared to Pt over a Co(II)/Co(III) Electrolyte for Dye-Sensitized Solar CellBG应用于染料敏化电池。FTO-BG的构建：: Homogeneously dispersed 0.1 wt% sample powders in 2-propanol solution were obtained by ultrasonication for 30 min. The resultant solution was deposited directly onto FTO/glass (TEC-8, Pilkington) using an e-spray technique. First, the sample dispersion solutions were loaded into a plastic syringe equipped with a 27-gauge stainless steel hypodermic needle. The needle was connected to a high voltage power supply (ESN-HV30). A voltage of 8.0 kV was applied between a metal orifice and the conducting substrate at a distance of 5.5 cm. The feed rate was controlled by the syringe pump (KD Scientific Model 220) at a constant flow rate of 150 L min1. The electric field overcomes the surface tension of the droplets, resulting in the minimization of numerous charged mists. The sample electrodes were sintered at 300 oC for 30 min at atmosphere prior to device fabrication. 【RSC Advance】A facile one-step hydrothermal synthesis of a B doped graphene/rod-shaped TiO2 nanocompositeit has been demonstrated that both the reduction of GO and the doping of B into graphene frameworks as well as the rod shaped rutile TiO2 anchored on BG are achieved successfully during the hydrothermal reaction.