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博士(后),校聘副教授、陕西省重点科技创新团队、西安建筑科技大学高水平人才创新团队、能源转化与增值利用陕西省高等学校重点实验室核心骨干,InternationalJournal of Coal Science & Technology(SCI一区)、燃料化学学报(EI)、材料导报(EI)和煤炭转化(CSCD核心)等期刊科学/学术编辑或青年编委。从事低品位能源高效清洁转化利用、碳基多孔材料制备与功能化应用等教学与科学研究工作。近5年,主持纵/横向科技项目20余项,发表高水平学术论文50余篇,授权国家专利/软著20余件,参与编著中英教材/专著4部,指导本科生/研究生创新创业大赛获奖20余项,曾获中国产学研合作促进会科技创新奖创新成果奖二等奖1项、陕西高等学校科学技术奖二等奖2项、校科学研究优秀成果奖一等奖2项和二等奖1项。
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支持扩展名:.rar .zip .doc .docx .pdf .jpg .png .jpeg1、国家自然科学基金面上项目,编号: 22578348,2026.01-2029.12,50万元,主持;
2、陕西省自然科学基础研究计划,编号:2024JC-YBQN-0090,2024.01-2025.12,5万元,主持;
3、钢铁工业环境保护国家重点实验室开放基金课题,编号:YZC2019Ky01,2019.12-2020.12,10万元,主持;
4、陕西省教育厅科研计划项目,编号:22JK0432,2022.01-2023.12,2万元,主持;
5、西安市碑林区科技计划项目,编号:GX2133,2021.01-2022.12,2万元,主持;
6、西安建筑科技大学科技基金项目,编号:ZR21065,2021.12-2023.12,5万元,主持;
7、西安建筑科技大学自制仪器项目,2022.01-2023.12,2万元,主持;
8、企业项目:中冶焦耐(大连)工程技术有限公司,2024.12-2026.03,70万元,主持;
9、企业项目:陕西省煤田地质集团有限公司科技创新能力支撑项目,2024.01-2025.12,38万元,主持;
10、企业项目:新丰市新太新材料科技有限公司,2024.07-2025.12,32万元,主持。
[1] Lei Wu, Yuan Gao, Zhendong Wang, Rock Keey Liew, Bin Bai,Tiantian Liu, Jiansheng Xiao, Su Shiung Lam*, Jun Zhou*. A novel synergyremediation of solubilization adsorption coupled with oxidation bycyclodextrin-magnetic biochar assisted persulfate forbenzo(a)pyrene-contaminated soil[J]. Journal of Environmental Management, 2025,388: 126013.
[2] Lei Wu, Yuanqing Shi, Fu Yang, B. Rajasekhar Reddy,Wanqing Zhang*, Yining Guan, Xinwei Zhang, Qiuli Zhang, Jun Zhou*. Revelationof non-thermal effects on lignite microwave drying II: Impacts on the structureand the properties of dried lignite[J]. Fuel, 2025, 398: 135529.
[3] Changsheng Yue, Fu Yang, Changbo Liu, Jiayu He, LeiWu*, Xinwei Zhang, Jun Zhou*. Achieving excellent water resistance inwaste bagasse-based nanofiber films through the formation of a protofiberinterlaced network using a simple chemical-mechanical method[J]. MaterialsToday Communication, 2025, 46: 112512.
[4] Changcong Li, Yuanqing Shi, Tiantian Liu, LeiWu*, Chong Zou, Ruiyu Zhu, Jun Zhou*. Enhancing mechanical strength offormed coke using a composite binder prepared by oil sludge and peanut shell[J].Biomass Conversion and Biorefinery, 2025, 15: 18747-18762.
[5] Yan Zhu, Changcong Li*, Husheng Cao, Lei Wu*,Fu Yang, Shigen Fu, Jun Zhou*. Effects of spatial distribution of tar-rich coaland oil shale and primary factors on product characteristics during microwaveco-pyrolysis[J]. Fuel, 2025, 385: 134085.
[6] Lei Wu1, Yining Guan1, B. Rajasekhar Reddy1,Changcong Li, Rock Keey Liew, Jun Zhou*. Revelation of non-thermal effects onmicrowave drying of lignite: Reactor design and drying characteristics[J].Fuel, 2025, 383: 133893.
[7] Lei Wu, Yuan Gao, Siwen Qiu, Zixuan Hu, Changbo Liu,Changsheng Yue, Jun Zhou*. Efficient oxidative remediation of polycyclicaromatic hydrocarbons (PAHs)-contaminated soil A thorough comprehension ofFe-loaded biochar activated persulfate[J]. Chemosphere, 2024, 368: 143699.
[8] Rongrong Yang, Jun Zhou*, Yuanqing Shi, YafengXiao, Lei Wu*, Rock Keey Liew, Mu Naushad, Su Shiung Lam*. Enhancedhydrogen evolution reactions: Regulating Pt-Ox bonds on blucoke-basedelectrocatalyst through simple iron doping[J]. International Journal ofHydrogen Energy, 2024, 81: 632-642.
[9] Lei Wu, Yuanqing Shi, Fu Yang, Changcong Li, Husheng Cao,Jiao Liu, Jun Zhou*. Carbon nanotubes growth in modified bluecoke powders:Preparation and characterization, formation mechanism of CNTs, and potentialapplication[J]. Advanced Powder Technology. 2024, 35: 104566.
[10] Lei Wu, Zixuan Hu, Yuan Gao, Changsheng Yue, Changbo Liu,Rock Keey Liew, Tiantian Liu, Jun Zhou*. Feasibility of microwaveremediation of simulative crude oil-contaminated soil assisted bybluecoke-based modifiers[J]. Chemosphere. 2024, 362: 142600.
[11] Ping Dong, Yonghui Song*, Lei Wu*, YaWang, Ning Yin, Yinfan Wang, Yifan Li. Synergistic removal of organics fromsemi-coke wastewater by persulfate and cyanide tailings[J]. Separation andPurification Technology, 2024, 333: 126056.
[12] Ping Dong, Yonghui Song*, Lei Wu*, Jin Bao, Ning Yin, RongyanZhu, Yifan Li, Hefu Li. Efficient recovery of iron from anaerobic roastedcyanide tailings using advanced oxidation technology[J]. Hydrometallurgy, 2024,224: 106241.
[13] Lei Wu, YiningGuan, Changcong Li, Lei Shi, Sasha Yang, B. Rajasekhar Reddy, Gan Ye, QiuliZhang, Rock Keey Liew, Jun Zhou, R. Vinu, Su Shiung Lam. Free-radical behaviorsof co-pyrolysis of low-rank coal and different solid hydrogen-rich donors: Acritical review[J]. Chemical Engineering Journal, 2023, 474: 145900.
[14] Lei Wu, Hongyan Wu, Qiusi Wen, Jun Zhou*,Ahmed M. Aljuwayie, Poh Wai Chia, Gan Ye, Qiuli Zhang, Rock Keey Liew, SuShiung Lam. Gas stripping coupled with in-situ oxidation assisted microwaveremediation of contaminated soil for efficient removal of polycyclic aromatichydrocarbons (PAHs)[J]. Chemical Engineering Journal, 2023, 473: 145411.
[15] Ping Dong, Yonghui Song*, Lei Wu*,Ning Yin, Yifan Li, Jin Bao, Rongyan Zhu. Resource utilization of cyanidetailings: Preparation of ferrous oxalate by a combined technique of anaerobicroasting-persulfate leaching followed by oxalic acid precipitation[J]. JOM, 2024,76: 432-444.
[16] Ning Yin, Yonghui Song*, Lei Wu*,Ping Dong, Chaofan Wang, Jun Zhou, Xinwei Zhang. Analysis of tar and pyrolysisgas from low-rank coal pyrolysis assisted by apple branch[J]. Journal ofRenewable and Sustainable Energy, 2023, 15: 043102.
[17] Lei Wu, YiningGuan, Changcong Li, Jun Zhou*, Tiantian Liu, Gan Ye, Qiuli Zhang, Yonghui Song,Ruiyu Zhu. Insight into product characteristics from microwave co-pyrolysis oflow-rank coal and corncob: Unraveling the effects of metal catalysts[J]. Fuel, 2023,342: 127860.
[18] Changsheng Yue, Hongyan Wu, Lei Wu*,Changbo Liu, Wei Tian, Jun Zhou. Efficient microwave remediation on naphthalenecontaminated soil using a multifunctional bluecoke-based conditioner[J].International Journal of Environmental Science and Technology, 2023, 20:12343-12350.
[19] Lei Wu, YiningGuan, Jun Zhou, Xu Jiang, Tiantian Liu, Jie Pan. Effects ofvariable amounts of volatiles in corncob on microwave co-pyrolysis of low-rankcoal and corncob[J]. Fuel, 2023, 332: 126133.
[20] Rongrong Yang, Jun Zhou*, Lei Wu*,Qiuli Zhang, Yonghui Song. Understanding effects of potassium activator on theporous structure and adsorption performance of bluecoke-based porous powderduring microwave heating[J]. Journal of Molecular Liquids, 2022, 366: 120249.
[21] Xinwei Zhang, Yonghui Song*, Lei Wu*,Ning Yin, Jin Bao, Yifan Li. Unraveling the dissociation mechanism of gold incarbonaceous gold ore during vacuum roasting pretreatment: Effect of pyrite[J].Minerals Engineering, 2022, 184: 107658.
[22] Lei Wu, HongyanWu, Siwen Qiu, Jun Zhou*, Changbo Liu, Changsheng Yue, Shuai Du. Insights intoremoval efficiency and mechanism of microwave remediation of soils contaminatedwith polyaromatic hydrocarbons of low molecular weight assisted bybluecoke-based conditioner[J]. Chemosphere, 2022, 301: 134647.
[23] Lei Wu, HongyanWu, B. Rajasekhar Reddy, Jun Zhou*, R. Vinu*. A low-cost and multifunctionalbluecoke-based absorber for high-efficiency microwave pyrolysis of coal[J].Fuel, 2022, 313: 122657.
[24] Lei Wu, JiaoLiu, Pan Xu, Jun Zhou*, Fu Yang. Biomass hydrogen donor assisted microwavepyrolysis of low-rank pulverized coal: Optimization, product upgrade andsynergistic mechanism[J]. Waste Management, 2022, 143: 177-185.
[25] Lei Wu, JiaoLiu, Jun Zhou*, Qiuli Zhang, Yonghui Song, Shuai Du, Wei Tian. Evaluation oftar from microwave co-pyrolysis of low-rank coal and corncob using orthogonaltests-based grey relational analysis (GRA)[J]. Journal of Cleaner Production,2022, 337: 130362.
[26] Lei Wu, JiaoLiu, B. Rajasekhar Reddy, Jun Zhou*. Preparation of coal-based carbon nanotubesusing catalytic pyrolysis: A brief review[J]. Fuel Processing Technology, 2022,229: 107171.
[27] Rongrong Yang, Jun Zhou, Lei Wu *,Song Ping. Fabrication of developed porous carbon derived from bluecoke powderby microwave-assisted KOH activation for simulative organic wastewatertreatment[J]. Diamond & Related Materials, 2022, 124: 108929.
[28] Wei Tian, Hongyan Wu, Lei Wu *,Changbo Liu, Changsheng Yue, Jun Zhou. Enhanced microwave remediation oforganic contaminated soil: A new way of utilization of bluecoke powder[J]. InternationalJournal of Environmental Science and Technology, 2022,19: 5451-5460.
[29] Lei Wu, Jun Zhou*,Rongrong Yang, Wei Tian, Yonghui Song, Qiuli Zhang, Xinzhe Lan. Enhancedcatalytic microwave pyrolysis of low-rank coal using Fe2O3@bluecokeprepared by a simple mechanical ball milling[J]. Journal of the EnergyInstitute, 2021, 95: 193-205.
[30] Lei Wu, Jun Zhou*,Rongrong Yang, Tian Wei, Qiuli Zhang, Yonghui Song, Yuhong Tian, Xinzhe Lan.Novel approach for enhanced catalytic microwave pyrolysis of low-rank coal[J].Energy & Fuels, 2020, 34: 9540-9551.
[31] Jun Zhou*, Lei Wu, Rongrong Yang,Qiuli Zhang, Yonghui Song, Yuhong Tian, Xinzhe Lan. Hydrothermal preparation ofpetal-like MoS2 and its TG-DSC-FTIR analysis[J]. Rare MetalMaterials and Engineering, 2020, 49(4): 1177-1183.
[32] Jun Zhou, Lei Wu *, Kun Liang,Jingjing Zhou, Qiuli Zhang, Yonghui Song, Yuhong Tian, Xinzhe Lan.Spectroscopic analysis on products from low-rank coal microwave pyrolysis:Effects of reaction atmosphere[J]. Journal of Applied Spectroscopy, 2020,87(4): 745-752.
[33] Jun Zhou*, Lei Wu, Jingjing Zhou, KunLiang, Yonghui Song, Yuhong Tian, Qiuli Zhang, Xinzhe Lan. Productsoptimization by FeS2 catalyst for low-rank coal microwavepyrolysis[J]. Fuel, 2019, 255: 115759.
[34] Lei Wu, Jun Zhou*,Jingjing Zhou, Kun Liang, Yonghui Song, Qiuli Zhang, Yuhong Tian.Temperature-rising characteristics and product analysis of low-rank coalmicrowave pyrolysis under CH4 atmosphere[J]. Journal of Analyticaland Applied Pyrolysis, 2019, 141: 104632.
[35] Jun Zhou*, Lei Wu, Kun Liang, QiuliZhang, Yonghui Song, Yuhong Tian, Xinzhe Lan. The synergistic mechanism onmicrowave and MoS2 in coal pyrolysis[J]. Journal of Analytical andApplied Pyrolysis, 2018, 134: 580-589.
二、EI论文
[1] 吴雷, 胡紫璇, 高渊, 刘长波, 曹虎生, 刘田田, 朱瑞玉, 周军*. 微波联合生物炭活化过硫酸盐氧化修复多环芳烃污染土壤研究[J]. 化工学报, 2025, 76(7): 3659-3670.
[2] 吴雷, 吴红艳, 邱丝雯, 周军*, 张秋利, 田玮. 有机污染土壤微波修复技术中吸波剂的研究进展[J]. 材料导报, 2023, 37(19): 22020006.
[3] 吴雷, 刘姣, 李长聪, 周军*, 叶干, 刘田田, 朱瑞玉, 张秋利, 宋永辉. 低阶粉煤催化微波热解制备含碳纳米管的高附加值改性兰炭末[J]. 化工学报, 2023, 74(9): 3956-3967.
[4] 崔张宁, 胡紫璇, 吴雷*, 周军*, 叶干, 刘田田, 张秋利, 宋永辉. 可降解纤维素基材料的耐水性能研究进展[J]. 化工学报, 2023, 74(6): 2296-2307.
[5] 周晶晶, 周军, 吴雷*, 杨茸茸, 宋永辉, 张秋利. 生物质供氢体协助低变质煤加氢热解提质的研究进展[J]. 材料导报, 2022, 36(9): 20070237.
[6] 杨茸茸, 周军, 吴雷*, 宋永辉, 刘长波, 岳昌盛, 田玮. 可渗透反应墙技术中反应介质的研究进展[J]. 中国环境科学, 2021, 41(10): 4579-4587.
[7] 吴雷, 彭犇, 周军*, 刘长波, 岳昌盛, 田玮, 宋永辉, 姜磊. 碳基非贵金属电催化剂研究进展[J]. 材料导报, 2020, 34(12): 23009-23019.
[8] 周军, 吴雷*, 周晶晶, 梁坤, 宋永辉, 张秋利, 田宇红. 煤催化微波热解技术及其碳基吸波催化剂研究进展[J]. 化工进展, 2019, 38(9): 4060-4074.
[9] 周军*, 吴雷, 梁坤, 宋永辉, 张秋利. 微波技术在煤热解工艺中的应用现状[J]. 材料导报, 2019, 33(1): 191-197.
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西安建筑科技大学
