范荣磊

范荣磊，副研究员，18新利体育 优秀青年学者，2019年毕业于18新利体育 物理科学与技术学院，获得理学博士学位。2017-2018年，国家公派留学在美国密西根大学安娜堡分校联合培养。研究方向为能量转换相关材料的制备及其物理特性研究，特别是基于Si材料光电物性的研究、光电化学分解水和二氧化碳还原的器件设计、以及纳米结构催化剂的合成与工业电解水制氢应用。目前，已经在Energy Environ.Sci.，Adv. Energy Mater.，ACS Energy Lett., Nano Energy, Appl. Catal. B: Environ.和Appl. Phys. Lett.等高水平期刊上发表学术论文发表SCI论文40余篇；已授权的发明专利3项。

欢迎对研究领域感兴趣的同学联系！

Email:rlfan@suda.edu.cn.

科研、人才项目：

国家自然科学基金 青年基金，主持，2021-2023

江苏省双创博士，主持，2021-2022

陕煤-秦岭基础18新利备用网站 五年行动计划，主持，2022-2025

国家自然科学基金 面上项目，主持，2024-2028

近三年学术论文如下：

[1]. R. Fan* et al., Facet engineering in Au nanoparticles buried in p-Si photocathodes for enhanced photoelectrochemical CO2 reduction. Applied Catalysis B: Environmental 2023,327, 122438.

[2]. R. Fan* et al., Enhanced solar hydrogen production by manipulating the spatial distribution of Pt catalyst onto Si micro-pyramid arrays. Applied Physics Letters 2023,122 (19).

[3]. R. Fan* et al., The bifunctional 3D-on-2D FeCo/Ni(OH)2 hierarchical nanocatalyst for industrial-level electrocatalytic water splitting. International Journal of Hydrogen Energy 2023,48 (47), 17882-17893.

[4]. R. Fan* et al., 5.7% Efficiency Si Photoanodes for Solar Water Splitting Catalyzed by Vertically Grown and Oxygen-Vacancy-Rich NiFe Hydroxides. Advanced Sustainable Systems 2023, 2300022.

[5]. R. Fan* et al., Oxygen-vacancy-rich nickel hydroxide nanosheet: a multifunctional layer between Ir and Si toward enhanced solar hydrogen production in alkaline media. Energy & Environmental Science 2022,15 (7), 3051-3061.

[6]. R. Fan* et al.,Reduced graphene oxide grafted on p-Si photocathode as a multifunctional interlayer for enhanced solar hydrogen production. Applied Physics Letters 2022,121 (21), 213901.

[7]. R. Fan* et al., Steering the Pathway of Plasmon-Enhanced Photoelectrochemical CO2 Reduction by Bridging Si and Au Nanoparticles through a TiO2 Interlayer. Small 2022, 2201882.

[8]. R. Fan* et al., NiMoFe/Cu nanowire core–shell catalysts for high-performance overall water splitting in neutral electrolytes. Chemical Communications 2022,58 (10), 1569-1572.

[9]. R. Fan* et al., Gradient-Structuring Manipulation in Ni3S2 Layer Boosts Solar Hydrogen Production of Si Photocathode in Alkaline Media. Advanced Energy Materials 2021, 2102865.

[10]. R. Fan* et al., Activating the MoS2 Basal Plane toward Enhanced Solar Hydrogen Generation via in Situ Photoelectrochemical Control. ACS Energy Letters 2021,6, 267-276.

[11]. R. Fan* et al., Sulfide@hydroxide core–shell nanostructure via a facile heating-electrodeposition method for enhanced electrochemical and photoelectrochemical water oxidation. Journal of Energy Chemistry 2021,58, 431-440.

[12]. R. Fan et al., Highly efficient and stable Si photocathode with hierarchical MoS2/Ni3S2 catalyst for solar hydrogen production in alkaline media. Nano Energy 2020,71, 104631.

[13]. R. Fan* et al., Integration of Oxygen-Vacancy-Rich NiFe-Layered Double Hydroxide onto Silicon as Photoanodes for Enhanced Photoelectrochemical Water Oxidation. ChemSusChem 2020,13 (n/a), 3893-3900.

[14]. R. Fan et al., Atomic Ir-doped NiCo layered double hydroxide as a bifunctional electrocatalyst for highly efficient and durable water splitting. J. Mater. Chem. A 2020,8, 9871-9881.