近年来，主要主持的项目：

1. 基于辉钼矿的负极材料结构设计及储锂机制研究，国家自然科学基金面上项目，52374358，2024.1.1-2027.12.31，50万元，主持。

2.高比能锂金属二次电池负极材料与电池电化学，国家自然科学基金重点项目，52034011，2021.1.1-2025.12.31，300万元，课题负责。

3.含砷锑金硫化矿晶格畸变及电化学氧化分选基础研究，国家自然科学基金面上项目，51974222，2020.1.1-2023.12.31，60万元，主持。

4.铜锌锡硫薄膜材料生长机理研究，国家重点研发计划“战略性国际科技创新合作”重点专项，2018YFE0203400，2019.08.01-2022.07.31，60万元，课题负责。

5.微胶囊型铂金催化剂的合成工艺研究，企业委托，20220352,2022.7.13-2024.7.14，15万，主持。

6.电化学调控介质中含砷硫化铜矿氧化机制及界面性质研究，国家自然科学基金青年基金项目，51374151，2014.01.01-2016.12.31，25万元，主持。

7.典型含铜硫化矿生物浸出过程中的表面钝化及表面改性研究，陕西省自然科学基础研究项目，2019JQ764，2019.1-2020.12,3万元，主持。

8.BLZ材料对黄铜矿生物浸出过程中钝化膜的改性研究，佛山科学技术学院开放基金项目，2019.8-2020.8，5万元，主持。

9.铜铅分离大分子铅抑制剂可调控性设计及抑制性能研究，陕西省教育厅专项科研项目，2018JK0474，2018.8.01.01-2019.12.31，2万元，主持。

近年来，主要代表作：

[1] Juan Yu*, Ming Li, Xuan Kong,Tian Wang,Hao Zhang, Xiaojie Zhu, Junkai Zhao, Zhiyuan Ma, Hongying Yang. Polyanion hydrogel electrolyte with a high Zn2+ transference number for dendrite-free aqueouszinc-ion batteries[J]. Journal of Materials Chemistry A, 2025, 13,16182.

[2]Bicheng Meng, Juan Yu*, Yinbo Wei, Jiulong Hang, Tiansi Chen, Zhiyuan Ma,Hong ying Yang. Exploring the application potential and mechanism of natural pyrite as the high energy storage material under the double-carbon layer effect[J]. Chemical Engineering Journal, 2025, 507,160209.

[3] Juan Yu*, Xiaoxu Tian, Hao Zhang, Jiale Fan, Junkai Zhao, Zhiyuan Ma. Nitrogen-doped carbon coated  molybdenum  disulfide  composites  grown  on  modified  graphite:  Stable  structure  and  rapid  ion diffusion promote ultra-long lifespan in lithium-ion  batteries[J]. Journal of Alloys and Compounds, 2025, 1026: 180479.

[4] Realizing high-performance zinc ion storage through the construction of a C–O–Mn structure for the preparation of MnO@NGF cathode with self-assembly capability[J].Journal of Energy Storage, 2024,100:113509.

[5]  In situ construction of ultra-stable zinc ophilic sodium alginate artificial interface layer for dendrite-free anode in aqueous zinc-ion batteries[J]. Electrochimica Acta, 2024,488:144191.

[6] The synergistic effect of PVA-based gel electrolyte and Cu2+ on the optimization of zinc anode[J]. Vacuum, 2024, 227;113365.

[7] 氮掺杂分级孔道碳的制备及其锌离子储能特性[J].中国有色金属学报, 2024, 34（6）: 1871-1883.

[8]  Investigation and Optimization of Electrochemical Lithium Storage in Natural Stibnite[J]. JOM ,2024, 76(12), 7157-7167.

[9]  砷黄铁矿的电化学氧化行为及表面相构成[J].稀有金属，2024, 48（10）: 1446-1458.

[10] Long-Life flexible mild Ag-Zn fibrous battery with bifunctional gel electrolyte[J] .Chemical Engineering Journal, 2024, 480, 148334.

[11] Designing MXene-Wrapped AgCl@Carbon core shell cathode for robust quasi-solid-state Ag-Zn battery with ultralong cycle life[J]. Energy Storage Materials, 2023, 60, 102836.

[12] Recent advances in flexible alkaline zinc-based batteries: Materials,structures, and perspectives[J]. Journal of Energy Chemistry, 2023,87,61–88.

[13] Bicheng Meng, Juan Yu*, Jiaxin Peng, Yinbo Wei, Fan Zhu. Combine natural stibnite with bio-carbon: A high-capacity composite anode material for lithium-ion battery[J]. JOM. 2023, 75: 2626-2635.

[14] Bicheng Meng, Juan Yu*, Wenlong Huang, Jiaxin Peng. Three-dimensional cage-like structured VOF@CNT composite material: In situ one-step synthesis and high-performance as the anode for lithium-ion batteries[J]. Journal of Alloys and Compounds. 2023, 952: 170092.

[15] Juan Yu*, Yinbo Wei, Bicheng Meng, Jiaxin Peng, Kai Yang, TianxingChen, Naixing Yang, and Xiuyun Chuan. Homogeneous distributed natural pyrite-derived composite induced by modified graphite as high-performance lithium-ion batteries anode[J]. International Journal of Minerals, Metallurgy and Materials. 2023, 30(7): 1353-1362.

[16] Juan Yu*, Xuefeng Jia, Jiaxin Peng, Bicheng Meng, YinboWei, Xueyang Hou, Junkai Zhao, Naixing Yang, Keyu Xie, Dewei Chu, Linbo Li. Synergistic effect of nitrogen−sulfur co doping on honeycomb-like carbon-based high-energy-density Zinc-ion hybrid super capacitors[J]. ACS Applied Energy Materials. 2023, 6: 2728−2738.

[17] Juan Yu*, XuefengJia, Jiaxin Peng, Tian Wang, Hangshuo Feng, Bicheng Meng, JunKai Zhao, NaixingYang. Stable Zn-ion hybrid super capacitor Zinc anode achieved by artificialprotective layer of nitrogen-sulfur Co-doping activated carbon. Journal of The Electrochemical Society[J]. 2023, 170: 020504.

[18] Juan Yu*, JiaxinPeng, Xuefeng Jia, Lejie Wang, Kai Yang, JunKai Zhao, Naixing Yang. Modifying the Zn anode with nano-silica: A strategy torealize dendrite-free Zinc-ion hybrid supercapacitors. Journal of The Electrochemical Society[J]. 2023, 170: 020508.

[19] Juan Yu*, Jiaxin Peng, BichengMeng, Xuyang Wang, Tian Wang, Xuefeng Jia, Kai Yang, Naixing Yang, Linbo Li.Nitrogen-doped biomass activated carbon induced uniform lithium deposition for highly stable lithium metal anodes[J]. Vacuum. 2023, 209: 111770.

[20]Jiaxin Peng, JuanYu*, Dewei Chu*,Xuefeng Jia, Bicheng Meng, KaiYang, Junkai Zhao, Naixing Yang, Linbo Li*.Synergistic effects of an artificial carbon coating layer and Cu2+ electrolyte additive for high performance zinc based hybrid super capacitors [J]. Carbon, 2022, 198: 3445.

[21]Linbo Li*,Jiaxin Peng, Xuefeng Jia, Xiaojie Zhu, Bicheng Meng, DeweiChu*, NaixingYang, JuanYu*. PBC@cellulose filter paper separator design with efficient ion transport properties toward stabilized zinc ion battery[J].Electrochimica Acta, 2022, 430: 141129.

[22]JuanYu*, XuyangWang, JiaxinPeng, XuefengJia, LinboLi, XiuyunChuan. Porous Activity of Biomass Activated Carbon Enhanced by Nitrogen Dopant Towards High Performance Lithium Ion Hybrid Battery Super capacitor[J].Journal of The Electrochemical Society, 2021,168:120537.

[23]Naixing Yang, Juan Wang, hiwei Xu, Jianxiao Zheng, Liangliang Wang, Juan Yu. A comparative assessment of the battery liquid cooling system employing two coolants: Phase change material emulsion and water[J]. Energy Research, 2021.12: 119.

[24]Natural stibnite embedded inhierarchical porous carb on enhance electrochemical storage for lithium ion batteries anode[J].Vacuum.2021,193(1):1–7.

[25]Juan Yu*, Lejie Wang, Jiaxin Peng, Xuefeng Jia, Lijiao Zhou, Naixing Yang, Linbo Li. O‑doped porous carbon derived from biomass waste for high‑performance zinc‑ion hybrid supercapacitors [J].Ionics.2021,28(8):18.

[26]Juan Yu*, Jiaxin Peng, Wenlong Huang, LejieWang, Yinbo Wei, Naixing Yang, Linbo Li. Inhibition of excessive SEI forming and improvement of structure stability for LiNi0.8Co0.1Mn0.1O2 by Li2MoO4 coating[J]. Ionics. 2021, 27(07): 28672876.

[27]Juan Yu*, Bicheng Meng, Lejie Wang, Qi Wang, Wenlong Huang, Xuyang Wang. Depositing natural stibnite on 3D TiO2 nanotube array networks as high performance thin film anode for lithium ion batteries[J]. Rare metals. 2021, 40(11)：3215–3221.

[28]俞娟，孟必成，黄文龙，李林波.弱碱性溶液中硫砷铜矿的电化学氧化过程及表面相构成研究[J].中国有色金属学报,2020,30(2):467478.

[29]Juan Yu*, Bicheng Meng, YaoFu, Wenlong Huang, Lejie Wang, Qi Wang, Linbo Li. Strongly binding natural stibnite on carbon fiber as anode for lithium ion batteries[J]. Ionics. 2020, 26(12): 5915–5922.

[30]Juan Yu*, Yangyang Dang, Maohui Bai, Jiaxin Peng, Dongdong Zheng, Junkai Zhao, Linbo Li. Graphene Modified 3D Copper foam current collector for dendrite Free Lihium Deposition[J]. Frontiers in Chemistry. 2019, 7: 748.

[31]Juan Yu*, Wenlong Huang, Bicheng Meng, Lejie Wang, Junkai Zhao, Linbo Li. Enhanced rate performance and high current cycle stability of LiNi0.8Co0.1Mn0.1O2 by sodium doping[J]. Materials Express,2019,2019,9(8),895905.

[32]Juan Yu, NaniMa, Jiaxin Peng, Yangyang Dang, Dongdong Zheng, Wudan Cheng, Lisi Liang, Xiaoqing Du, MinOu yang. DifferentDimensions of gC3N4 Nano materials on Cathode for Lithium Sulfur Batteries[J]. Journal of Nano science and Nanotechnology,2020,20(3):16431650.

[33]Juan Yu, Na Gao, Jiaxin Peng, NaniMa, Xiaoyan Liu, Chao Shen, Keyu Xie. Concentrated LiODFB Electrolyte for Lithium Metal Batteries[J]. Frontiers in Chemistry. 2019, 7: 494.

[34]俞娟，黄文龙，王斌，袁艳.硫砷铜矿中砷的脱除与固化,稀有金属，2018,42,(9).

[35]Juan Yu, Hongying Yang, Linlin Tong, JunZhu. Intendified bioleaching of low grade molybdenite concentrate by ferrous sulfate[J]. 2015, 34(3): 207214.

[36]Juan Yu, Hongying Yang*. Effect of potential on characteristics of oxide product layers on chalcopyrite[J]. Characterization of Minerals,Metals,and Materials 2015, TMS 2015, 449453.

[37]俞娟,杨洪英,王斌，李林波,朱军.钼酸铵溶液的净化研究,中南大学学报(自然科学版),2014,45(9):29592965.

[38]俞娟,杨洪英,李林波,朱军.某难分离铜钼混合精矿的分离研究稀有金属,2014,38(3):494501

[39]JuanYu, HongyingYang. Effect of potential on characteristics of oxide product layers on chalcopyrite Characteriation of Minerals,Metals,and Materials 2015.

[40]JuanYu, HongyingYang, YoujingFan. Effect of potential on characteristics of surface film on natural chalcopyrite, Transactions of Nonferrous Metals Society of China, 2013, 21(8).

[41]有色金属冶金新工艺与新技术.北京：冶金工业出版社,2019.9.

[42]一种利用尾矿制备硅碳负极材料及其制备方法，专利号：202010587475.0

[43]纳米掺氮辉锑矿复合材料、其制备方法及应用，专利号：ZL202010872063.1

[44]一种富钒炉渣中多种元素提取方法及应用，专利号：ZL202211139588.X

2.中国有色金属学会论文一等奖；