个人简介

贾雪梅，女，1992年生，博士，副教授，硕士生导师，青年“相山学者”。2021年毕业于南京理工大学，获得材料科学与工程专业博士学位。主要从事高效光催化材料的组装及其在能源和环境中的应用研究工作。主持国家自然科学基金项目和安徽省高校优秀青年项目等4项，在国内外高水平期刊Appl.Catal. B: Environ.， Chem. Eng. J.， Chin. J. Catal.， J. Colloid Interface Sci., 等上发表与光催化相关的第一作者/通讯作者学术论文27篇。其中，1篇论文是ESI高被引论文，1篇论文被J. Mol. Catal. A: Chem.杂志评为Editor’s choice paper。指导的本科生获挑战杯奖省二等奖。

邮箱：XuemeiJia@njust.edu.cn

科研项目

[1] 安徽高校自然科学研究项目（优青项目），光催化反应过程中动态活性位点的演变机制及其催化机理研究（2024AH030049），50万元，2025.01−2027.12，主持，在研。

[2] 国家自然科学基金青年项目，光催化CO₂还原耦合抗生素矿化的反应体系研究，30万元，2023.01−2025.12，主持，在研。

[3] 安徽高校自然科学研究项目（重点项目），S型光催化剂在废水处理和CO₂还原新耦合体系中的应用（KJ2021A0522），6万元，2022.01−2023.12，主持，已结题。

[4] 淮北师范大学高层次人才启动经费，30万元，2021.01−2025.12，主持，在研。

代表性论文

[1] Xinyue Li, Jing Cao, Xuemei Jia*, Shuang Li, Xin Jin, Qianlong Wang, Shifu Chen*, Haili Lin*, Dual-active-group co-modification of BiOBr for boosting photocatalytic CO₂ reduction coupled with ciprofloxacin oxidation, Applied Catalysis B: Environment and Energy, 2025, 362: 124713. (SCI一区，IF= 21.1)

[2] Shuang Li, Haili Lin, Xuemei Jia*, Xin Jin, Qianlong Wang, Xinyue Li, Shifu Chen, Jing Cao*, Bimetallic Ni_xFe_2-xP cocatalyst with tunable electronic structure for enhanced photocatalytic benzyl alcohol oxidation coupled with H₂ evolution over red phosphorus, Chinese Journal of Catalysis, 2025, 70: 363-377. (SCI一区，IF= 17.7)

[3] Xinyue Li, Haili Lin, Xuemei Jia*, Shifu Chen, Jing Cao*, An S-scheme heterojunction engineered with spatially separated dual active groups for simultaneously photocatalytic CO₂ reduction and ciprofloxacin oxidation, Chinese Journal of Catalysis, 2025, 73: 205–221. (SCI一区，IF= 17.7)

[4] Xin Jin, Haili Lin, Xuemei Jia*, Shuang Li, Xinyue Li, Qianlong Wang, Shifu Chen, Jing Cao*, Tunable interfacial charge transfer in a nickel sulfide/red phosphorus composite for efficient benzyl alcohol selective oxidation: Effect of nickel sulfide crystal phase, Journal of Colloid and Interface Science, 2025, 690: 137315. (SCI一区，IF= 9.7) 

[5] Shuang Li, Haili Lin, Xuemei Jia*, Qianlong Wang, Haoyu Zhang, Yujie Zhang, Xiaoxin Feng, Shifu Chen, Jing Cao*, Z-scheme heterojunction with spatially separated dual redox-active sites for coupled carbon dioxide photoreduction and tetracycline photooxidation, Journal of Colloid And Interface Science, 2025, 699: 138218. (SCI一区，IF= 9.7)

[6] Junyu Lin, Xinyue Li, Haili Lin, Xuemei Jia*, Shifu Chen, Jing Cao*, B and P dual sites co-modified g-C₃N₄ p-n homojunction for photocatalytic CO₂ reduction coupled with metronidazole oxidation, Separation and Purification Technology, 2025, 359: 130686. (SCI二区，IF= 8.4)

[7] Yujie Zhang¹, Xiaoxin Feng¹, Haoyu Zhang¹, Haili Lin, Xuemei Jia*, Shifu Chen, Jing Cao*, Regulating local electron density of bismuth dual atom site by vacancy for efficient CO₂ photo reduction coupled with tetracycline oxidation, Separation and Purification Technology, 2025, 369: 133055. (SCI二区，IF= 8.4)

[8] Qianlong Wang, Haoyu Sun, Haili Lin, Xuemei Jia,* Shifu Chen, and Jing Cao*, Insights into Dynamic Dual-Defect Sites in IDoped BiOCl for Synergistic Metronidazole Oxidation and CO₂ Reduction, Inorganic Chemistry, 2025, 64: 12211−12225. (SCI二区，IF= 4.7)

[9] Haoyu Sun, Haili Lin, Xuemei Jia*, Xinyue Li, Shuang Li, Xin Jin, Qianlong Wang, Shifu Chen*, Jing Cao*, Dual structure cobalt sites on surface hydroxyl and oxygen vacancy of BiOCl for cooperative CO₂ reduction and tetracycline oxidation, Applied Catalysis B: Environment and Energy, 2024, 359: 124514. (SCI一区，IF= 20.2)

[10] Xuemei Jia, Jing Cao*, Haoyu Sun, Xinyue Li, Haili Lin, Shifu Chen*, Interfacial engineering of Bi₁₂O₁₇Br₂/g-C₃N_4-x S-scheme junction boosting charge transfer for cooperative tetracycline decomposition and CO₂ reduction, Applied Catalysis B: Environmental, 2024, 343: 123522. (SCI一区，IF= 20.2)

[11] Xinyue Li, Haili Lin, Xuemei Jia*, Haoyu Sun, Shifu Chen, Jing Cao*, Photoredox coupling of carbon dioxide reduction with tetracycline oxidation using excited-state bismuth and cobalt dual sites over cobalt-tailored bismuth oxychloride, Journal of Colloid And Interface Science, 2024, 676: 343−354. (SCI一区，IF= 9.4)

[12] Haoyu Sun, Xuemei Jia,* Jing Cao, Shifu Chen, Yong Chen, Haili Lin*, Oxygen vacancies synergistic cobalt phosphide electron bridge modulated bismuth oxychloride/carbon nitride Z-scheme junction for efficient carbon dioxide reduction coupled with tetracycline oxidation, Journal of Colloid And Interface Science, 2024, 661: 150−163. (SCI一区，IF= 9.4)

[13] Xuemei Jia, Cheng Hu, Haoyu Sun, Jing Cao, Haili Lin^*, Xinyue Li, Shifu Chen^*. A dual defect co-modified S-scheme heterojunction for boosting photocatalytic CO₂ reduction coupled with tetracycline oxidation, Applied Catalysis B: Environmental, 2023, 324: 122232. (SCI一区，IF= 24.319)

[14] Cheng Hu, Jing Cao, Xuemei Jia*, Haoyu Sun, Haili Lin^*, Shifu Chen^*, Difunctional Ni₂P decorated novel Z-scheme BiVO₄/g-C₃N₄ heterojunction for achieving highly efficient CO₂ reduction and tetracycline oxidation , Applied Catalysis B: Environmental, 2023, 337: 122957. (SCI一区，IF= 24.319)

[15] Xuemei Jia, Haoyu Sun, Haili Lin^*, Jing Cao, Cheng Hu, Shifu Chen^*. In-depth insight into the mechanism on photocatalytic selective CO₂ reduction coupled with tetracycline oxidation over BiO_1-xBr/g-C₃N₄, Applied Surface Science, 2023, 614: 156017. (SCI一区，IF= 7.392)

[16] Xuemei Jia, Zichen Shen, Qiaofeng Han*, Huiping Bi*, Rod‐like Bi₄O₅I₂/Bi₄O₅Br₂ step‐scheme heterostructure with oxygen vacancies synthesized by calcining the solid solution containing organic group, Chinese Journal of Catalysis. 2022, 43: 288−302. (SCI一区，IF= 16.5)

[17] Xuemei Jia^*, Haili Lin, Jing Cao^*, Cheng Hu, Haoyu Sun, Shifu Chen. Synergistic introduction of oxygen vacancy and silver/silver iodide: Realizing deep structure regulation on bismuth oxybromide for robust carbon dioxide reduction and pollutant oxidation. Journal of Colloid and Interface Science, 2022, 624: 181−195. (SCI一区，IF= 8.128)

[18] Xuemei Jia, Cheng Hu, Jing Cao, Dongdong Cao, Haili Lin^*, Shifu Chen^*. Using wide-band-gap BiOCl to greatly enhance the photocarriers separation of AgI via in-situ Ag bridge: Interfacial electron transfer route, density functional theory calculation and mechanism study. Applied Surface Science, 2022, 574: 151671. (SCI一区，IF= 7.392)

[19] Cheng Hu, Haoyu Sun, Xuemei Jia*, Haili Lin, Jing Cao^*, Shifu Chen, Piezoelectric polarization and empty conduction band of zinc sulfide: Structure modulation on graphitic carbon nitride for carbon dioxide reduction to methane, ChemPhotoChem, 2022, 6: e202200150. (SCI三区，IF= 3.8)

[20] Xuemei Jia, Qiaofeng Han*, Huanzhen Liu, Shuzhen Li, Huiping Bi*, A dual strategy to construct flowerlike S-scheme BiOBr/BiOAc_1-xBr_x heterojunction with enhanced visible-light photocatalytic activity, Chemical Engineering Journal, 2020, 399: 125701. (SCI一区，IF= 13.3)

[21] Mengyun Zheng^#, Xuemei Jia^#, Zichen Shen^#, Qiaofeng Han*, Grinding induced the formation of the heterojunction Bi₆O₅(OH)₃(NO₃)₅·3H₂O/BiOI with improved visible-light photoreactivity. Journal of Nanoparticle Research. 2020, 22: 310.（共一）(SCI三区，IF= 2.132)

[22] Xuemei Jia, Qiaofeng Han*, Mengyun Zheng, Huiping Bi*, One pot milling route to fabricate step-scheme AgI/I-BiOAc photocatalyst: Energy band structure optimized by the formation of solid solution, Applied Surface Science, 2019, 489: 409−419. (SCI二区，IF= 6.182)

[23] Xuemei Jia, Zhen Yang, Qiaofeng Han*, Xin Wang, Junwu Zhu*. Ultrathin sheetlike BiOAc_0.67I_0.33 solid solution with optimal energy levels and enhanced visible-light photocatalytic activity, Catalysis Communications, 2019, 119: 82−85. (SCI三区，IF= 3.612)

[24] Xuemei Jia, Qiaofeng Han*, Xin Wang and Junwu Zhu*. Milling-induced synthesis of BiOCl_1-xBr_x solid solution and their adsorptive and photocatalytic performance, Photochemistry and Photobiology, 2018, 94: 942–954. (SCI三区，IF= 2.721)

[25] Xuemei Jia, Jing Cao, Haili Lin*, Meiyu Zhang, Xiaomin Guo, Shifu Chen*, Transforming type-I to type-II heterostructure photocatalyst via energy band engineering: A case study of I-BiOCl/I-BiOBr, Applied Catalysis B: Environmental, 2017, 204: 505−514. (SCI一区，IF= 11.698)

[26] Xuemei Jia, Jing Cao, Haili Lin*, Meiyu Zhang, Xiaomin Guo, Shifu Chen*, Novel I-BiOBr/BiPO₄ heterostructure: synergetic effects of I^- ion doping and the electron trapping role of wide-band-gap BiPO₄ nanorods, RSC Advances, 2016, 6: 55755–55763. (SCI三区，IF= 3.289)

[27] Xuemei Jia, Jing Cao, Haili Lin*, Yong Chen, Wenfu Fu, Shifu Chen*, One-pot synthesis of novel flower-like BiOBr_0.9I_0.1/BiOI heterojunction with largely enhanced electron-hole separation efficiency and photocatalytic performances, Journal of Molecular Catalysis A: Chemical, 2015, 409: 94–101. (SCI三区，IF= 3.615)