未来技术学院-交叉创新研究院-王彤彤导师介绍
王彤彤
副教授
硕士生导师
男
未来技术学院-交叉创新研究院
生态学
,环境工程
,环境科学与工程
光催化水处理,土壤污染修复,新型环境功能材料,修复生态学
wangtongtong@xauat.edu.cn
招生信息
1
生态学
2026
1
学术型硕士
修复生态学
2
环境工程
2026
1
专业学位硕士
不区分研究方向
3
环境科学与工程
2026
1
学术型硕士
环境功能材料,环境地球化学
深耕生态与环境领域,融合理论与实践,专注可持续发展研究,诚邀有志学子共探绿色未来!
教育背景
1. 博士研究生教育情况
2018年9月-2022年9月,西北农林科技大学,工学博士,环境工程(全日制学术型)。研究方向:水污染处理工程/环境化学/固体废弃物资源化
2. 硕士研究生教育情况
2014年9月-2017年6月,西北农林科技大学,工学硕士,环境科学(全日制学术型)。 研究方向:固体废弃物资源化/生物炭及其环境效应
3. 本科教育情况
2009年9月-2013年6月,西北师范大学(省部共建高校,中西部高校基础能力建设工程),理学学士,环境科学
工作背景
1.天水市环境保护局
2013年7月-2014年4月,天水市环境监测站,岗位:实习生
主要负责天水市各污染企业排污监测工作,含水、固废、大气和噪声监测。
2.长江水利委员会长江科学院
2017年8月-2018年8月,重庆分院,岗位:土壤污染修复工程师
正式在编,主要负责多项横向项目,包括:水保监测、设计、验收、环保、环评等方向。
3.陕西省渭南市合阳县农业农村局
2019年3月-2019年8月,岗位:副局长(挂职,有组织部任命文件)
实职副科级,负责科技扶贫,对接学校与合阳县的扶贫政策,完成县领导和局长的任务。
4.西安建筑科技大学
2023年2月-2026年3月,交叉创新研究院,职称:讲师/助理教授
2026年3月-今,交叉创新研究院,职称:校聘副教授
学术兼职
1. 学术兼职:
(1) 中国环境科学学会,会员(2022年10月-2027年10月)
(2) 中国化学会,会员(2023年4月-2028年4月)
(3) 中国农业工程学会,会员(2022年12月-2025年12月)
(4) 中国化工学会,会员(2024年1月-2030年12月)
(5) 陕西省生态学学会,理事(2025年1月-2028年12月)
(6) Polymers和Journal of Renewable Materials期刊的专题顾问和客座编辑(2023年1月-2025年12月)
(7) Recent Innovations in Chemical Engineering期刊编委和编辑(2025年1月-2027年12月)
https://www.benthamscience.com/journal/158/editorial-board
(8) 北京交叉交叉科学学会,会员(2025年1月-2026年12月)
学术名片
(1) ORCID:0000-0002-2553-0265
(2) ResearcherID: D-2701-2017 (H指数为26),
https://www.webofscience.com/wos/author/rid/D-2701-2017
(3) Scopus Author ID: 57194467062 (H指数为24),
https://www.scopus.com/authid/detail.uri?authorId=57194467062
(4) Publons: https://publons.com/a/1623617
审稿期刊:
(1) Bioresource technology; (2) Land degradation & development; (3) Soil Science Society of America journal; (4) Canadian Journal of Soil Science; (5) Journal of arid land; (6) Water science and engineering; (7) International journal of environmental technology and management; (8) Saudi Journal of Biological Sciences; (9) Ingeniería E Investigación; (10) Environmental Pollution; (11) Journal of Environmental Chemical Engineering; (12) RSC Advances; (13) Biomass Conversion and Biorefinery; (14) Acta Agriculturae Scandinavica, Section B-Plant Soil Science; (15) SN Applied Sciences; (16) Water and Environment Journal; (17) Environmental Science and Pollution Research; (18) Scientific Reports; (19) Environmental Technology; (20) Frontiers of Chemical Science and Engineering; (21) Pedosphere; (22) Water; (23) Journal of Soil Science and Plant Nutrition; (24) Sensors; (25) Sustainability; (26) PLoS ONE; (27) Current pollution reports; (28) Reviews on Advanced Materials Science; (29) Small; (30) Chemical Engineering Journal; (31) International Journal of Biological Macromolecules; (32) Water Research; (33) Microchemical Journal; (34) Journal of Hazardous Materials; (35) Science of the Total Environment; (36) Process Safety and Environmental Protection; (37) Chemosphere; (38) Polymers; (39) ACS Omega; (40) ChemistrySelect; (41) Surfaces and Interfaces; (42) Frontiers in Ecology and Evolution; (43) Agronomy; (44) Chemical Engineering Science; (45) Materials Today Sustainability; (46) Journal of Photochemistry & Photobiology, A Chemistry; (47) Desalination; (48) International Journal of Hydrogen Energy; (49) Desalination and Water Treatment; (50) Separation and Purification Technology; (51) Applied Surface Science; (52) Applied Surface Science; (53) Materials Chemistry and Physics; (54) Current Nanoscience; (55) Frontiers of Agricultural Science and Engineering; (56) Environmental Research; (57) Nature Communications; (58) Journal of the American Chemical Society; (59) Vadose Zone Journal; (60) Journal of Molecular Structure; (61) Journal of Renewable Materials; (62) Microporous and Mesoporous Materials; (63) Journal of Water Process Engineering; (64) Journal of Industrial and Engineering Chemistry; (65) Adsorption; (66) Discover Water; (67) Biomass and Bioenergy; (68) Results in Engineering; (69) Renewable and Sustainable Energy Reviews; (70) Solar RRL; (71) Chinese Chemical Letters; (72) Sustainable Energy Technologies and Assessments; (73) Materials Science in Semiconductor Processing; (74) Separations; (75) Inorganic Chemistry Communications; (76) Engineering Proceedings; (77) Applied Catalysis B Environment and Energy; (78) Materials & Design; (79) Talanta; etc.
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科研项目
1. 个人主持的科研项目:
(1) 2010年10月-2011年12月,渭河天水段地表水水质现状评价研究,本科生科研资助金项目;已发表CSCD/中文核心论文1篇。
(2) 2015年6月-2016年6月,铝改性生物炭对重金属的吸附及形态变化特征研究,西北农林科技大学基本科研业务费专项资金项目(2452015250);已发SCI论文3篇。
(3) 2019年1月-2020年12月,Mg/Al改性生物炭的制备及其对硝酸盐的吸附性能研究,环境材料与修复技术重庆市重点实验室开放基金(CEK1805);已发SCI论文2篇。
(4) 2023年9月-2026年8月,秦岭金属矿山生态建设关键技术及应用研究,主持3.1子课题:水环境分类及生态健康评价体系研究,2023年陕西省重点研发计划(2023-LL-QY-42);已发SCI论文5篇。
(5) 2024年1月-2026年12月,西安建筑科技大学引进人才科研启动项目(1960323102);已发SCI论文6篇。
(6) 2024年1月-2026年12月,废弃口罩资源化产物在去除复合污染物及能源中的应用,西安建筑科技大学交叉研究培育专项(1960523142);已发SCI论文5篇。
(7) 2024年1月-2026年12月,渭北旱塬农田土壤固碳潜力提升关键技术研发与示范,合作单位项目主持人:研发新型碳基材料及示范应用,2024年度陕西省重点研发计划项目(2024NC-ZDCYL-02-05)。
(8) 2024年4月-2025年12月,新型碳基改良剂耦合菌肥构建宁南山区土壤保育技术与固碳机制研究,宁夏土壤与植物营养重点实验室开放基金(ZHS202401)。
(9) 2024年7月-2025年7月,基于UAN的新型肥料研发与应用,横向课题-塔里木大学(20240397)。
(10) 2025年1月-2026年12月,陕西省自然科学基金青年项目(2025JC-YBQN-457)。
(11) 2025年1月-2026年12月,陕西省榆林市五区县第三次全国土壤普查报告成果编制工作,横向课题-陕西省生物农业研究所。
(12) 2026年1月-2027年12月,Z型生物炭基复合材料光热耦合催化体系构筑及对抗性基因强化去除机制,校级国家基金培育专项(X20250047)。
(13) 2026年1月-2027年12月,2025年榆林市科技局专项(2025-CXY-058).
2. 参与过导师或原单位的科研经历:
(1) 国家自然科学基金面上项目(41571225)生物炭对黄土高原不同质地土壤水文过程影响及机理的定位研究,项目负责人:郑纪勇.
(2) 中国科学院西部行动计划项目(KZCX2-XB3-13):晋陕蒙能源基地受损生态系统恢复重建关键技术与示范,项目负责人:李世清.
(3) 科技部科技惠民计划项目(2012GS610203):陕北能源化工基地生态修复惠民工程,项目负责人:张兴昌.
(4) 国家科技支撑计划项目(2015BAC01B00):黄土丘陵区退化生态修复技术研究与示范,项目负责人:赵世伟.
(5) 中央级公益性科研院所基本科研业务费(CKSF2017027/CQ):人类活动影响下的流域硅循环过程研究,项目负责人:张乾柱(长江科学院).
(6) 中央级公益性科研院所基本科研业务费(CKSF2017018/CQ):耐旱苔藓生长机制及其在生态护坡中的应用,项目负责人:周火明(长江科学院).
(7) 水利技术示范项目:河湖岸坡生态修复技术集成与示范,负责单位:长江科学院.
(8) 中国科学院STS项目“黄土丘陵区退化土地修复与生态产业技术示范”(KFJ-STS-ZDTP-012),2017-2019. 项目负责人:张兴昌.
(9) “十三五”国家重点研发计划项目“黄土高原水土流失综合治理技术及示范”项目(2016YFC0501702),2016.07-2020.12. 项目负责人:张兴昌.
(10) “十三五”国家重点研发计划项目“鄂尔多斯高原砒砂岩区生态综合治理技术”项目(2017YFC0504504),2017.11-2020.12. 项目负责人:张兴昌.
(11) 宁夏黄土丘陵区小流域生态综合治理与高质量发展技术集成与示范(2020BCF01001),2020-2023年. 项目负责人:郑纪勇.
(12) 中国科学院战略性先导科技专项(A类):“绿水青山”提质增效关键技术与示范(XDA23070202), 2019.1-2024.12. 项目负责人:郑纪勇.
3. 负责或参与的横向项目:
(13) 重庆江津至贵州习水高速公路(重庆境)工程水土保持监测项目(CKSK2018040/CQ,项目负责人).
(14) 荆门金泉风电场(48MW)工程水土保持监测、监理、技术评估(CKSK2016486/CQ).
(15) 重庆市江津区石蟆镇2018年坡耕地水土流失综合治理工程实施方案编制(CKSK2018039/CQ).
(16) 重庆市南川金佛山水利工程水土保持监测项目(CKSK2017471/CQ).
(17) 福建厦门抽水蓄能电站水土保持监测项目(CKSK2016853/CQ,部分项目负责人).
(18) 乌东德水电站主体工程施工区环境监测项目(CKSK2018182/CQ,部分项目负责人).
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研究成果
1.发表的论文:
(1) Wang Tongtong*, Kumar Amit, Sharma Gaurav, Wang Sen, Jia Junchao, Zheng Jiyong, Shi Hui*. 2024. Synergistic mechanisms of novel Z-Scheme N,S co-doped biochar-based Ag3PO4 composites for efficient removal of norfloxacin. npj Clean Water, 7: 97. (SCI,Q1,IF=11.4,中科院一区TOP期刊,DOI:10.1038/s41545-024-00393-8,受到《科技日报》、陕西省新闻联播等十余家官媒报道).
(2) Wang T*, Zhang D, Shi H, Zheng J, Wang H, Lichtfouse E. 2026. Double Z-scheme biochar-based g-C3N4/Bi2WO6/Ag3PO4 nanocomposite for efficient removal of antibiotics and synergistic mechanisms. Communications Chemistry, 9: 105. (SCI,Q1,IF=6.2,中科院一区TOP期刊,DOI:10.1038/s42004-026-01923-w).
(3) Wang Tongtong*, Shi Hui, Kumar Amit, Zhang Di, Wang Huixia, Wang Sen, Zheng Jiyong*. Efficient visible-light photocatalysis of chloramphenicol using novel engineered biochar-based Ti-doped Bi2WO6 composite: Mechanisms, degradation pathways, and applications[J]. Separation and Purification Technology, 2024, 332: 125780. (SCI/EI,Q1,IF=9.0,中科院一区,DOI:10.1016/j.seppur.2023.125780,ESI高被引论文).
(4) Sharma G, Verma A, Wang Tongtong*#, Naushad M, Kumar A, Dhiman P. 2024. Remediation of antibiotics using coordination polymers. Coordination Chemistry Reviews, 519: 216120. (SCI,中科院一区TOP期刊,Q1,IF=23.5,DOI: 10.1016/j.ccr.2024.216120).
(5) Kumar A, Sharma P, Sharma G, Dhiman P, Mola G T, Farghali M, Rashwan A K, Nasr M, Osman A I, Wang T*. 2024. Simultaneous hydrogen production and photocatalytic pollutant removal: a review. Environmental Chemistry Letters, 22, 2405-2424. (SCI,Q1,IF=20.4,DOI: 10.1007/s10311-024-01756-w)
(6) Sharma, G., Wang, T.*, Verma, Y., Wang, S.*, Dhiman, P., Jia, J. 2026. Sodium alginate-based adsorbents for pesticide removal: Advances, mechanisms, and future perspectives. Carbohydrate Polymers, 375:124783.(SCI/EI,Q1,IF=12.50,中科院一区TOP期刊,DOI:10.1016/j.carbpol.2025.124783).
(7) Dengzheng Zhang, Zhengheng Xu, Xing Xu⁎, Tongtong Wang⁎, Weixuan Huang, Binrong Li, Yali Guo, Hanghang Zhao. From algal threat to Fe/N-rich single-atom catalyst: engineering iron-accumulating algae for high-performance Fenton-like chemistry and lifecycle sustainability. Advanced Functional Materials, 2026, 36: e29134. (SCI,Q1,IF=19.0,中科院一区TOP期刊,DOI:10.1002/adfm.202529134).
(8) Wang Tongtong, Zheng Jiyong* Jinjun Cai, Qiangqiang Liu, Xianxia Zhang. Visible-light-driven photocatalytic degradation of dye and antibiotics by activated biochar composited with K+ doped g-C3N4: effects, mechanisms, actual wastewater treatment and disinfection [J]. Science of The Total Environment, 2022, 839: 155955. (ESI高被引论文,SCI/EI,Q1,IF=10.753,中科院一区,DOI:10.1016/j.scitotenv.2022.155955).
(9) Wang Tongtong, Li Gaoliang, Yang Kaiqi, Zhang Xiaoyuan, Wang Ke, Cai Jinjun, Zheng Jiyong*. Enhanced ammonium removal on biochar from a new forestry waste by ultrasonic activation: Characteristics, mechanisms and evaluation[J]. Science of The Total Environment, 2021, 778: 146295. (SCI/EI,Q1,IF=10.753,中科院一区,DOI:10.1016/j.scitotenv.2021.146295).
(10) Wang Tongtong, Jinjun Cai, Jiyong Zheng*, Kaikai Fang, Imtyaz Hussain, Dalal Z. Husein. Facile synthesis of activated biochar/BiVO4 heterojunction photocatalyst to enhance visible light efficient degradation for dye and antibiotics: applications and mechanisms[J]. Journal of Materials Research and Technology, 2022, 19:5017-5036. (SCI/EI,Q1,IF=6.267,中科院一区,DOI:10.1016/j.jmrt.2022.06.177)
(11) Tongtong Wang, Catherine E. Stewart, Cengceng Sun, Ying Wang, Jiyong Zheng*. Effects of biochar addition on evaporation in the five typical Loess Plateau soils[J]. Catena, 2018, 162:29-39. (ESI高被引论文,SCI,Q1,IF=6.367,中科院一区,DOI:10.1016/j.catena.2017.11.013).
(12) Wang Tongtong*, Zhang Di, Fang Kaikai, Zhu Wei, Peng Qin, Xie Zhigang. Enhanced nitrate removal by physical activation and Mg/Al layered double hydroxide modified biochar derived from wood waste: Adsorption characteristics and mechanisms[J]. Journal of Environmental Chemical Engineering, 2021, 9(4),105184. (SCI/EI,Q1,IF=7.968,中科院二区,DOI:10.1016/j.jece.2021.105184)
(13) Wang Tongtong, Florian J. Stadler, Dalal Z. Husein, Di Zhang, Jinjun Cai, Yifan Wang, Minghao Li, Yin Qiang, Jiyong Zheng*. Comparative study of enhanced adsorption-photodegradation activity using activated biochar composited with Ag3PO4 or Ag6Si2O7 in wastewater treatment and disinfection: Effects and mechanisms [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 655: 130235. (SCI,Q1,IF=5.518,中科院二区,DOI:10.1016/j.colsurfa.2022.130235)
(14) Tongtong Wang, Dalal Z. Husein*. Novel synthesis of multicomponent porous nano-hybrid composite, theoretical investigation using DFT and dye adsorption applications:disposing of waste with waste[J]. Environmental Science and Pollution Research, 2023, 30(4): 8928-8955. (国际合作论文,SCI,Q2,IF=5.19,DOI:10.1007/s11356-022-20050-2)
(15) Tongtong Wang, Amit Kumar, Xin Wang, Di Zhang, Yi Zheng, Guogang Wang, Qingliang Cui, Jinjun Cai, Jiyong Zheng*. Construction of activated biochar/Bi2WO6 and /Bi2MoO6 composites to enhance adsorption and photocatalysis performance for efficient application in the removal of pollutants and disinfection [J]. Environmental Science and Pollution Research, 2023, 30(11): 30493-30513. (SCI,Q2,IF=5.19,DOI:10.1007/s11356-022-24049-7)
(16) Wang Tongtong, Jiyong Zheng*, Hongtao Liu, Qin Peng, Huoming Zhou, Xingchang Zhang*. Adsorption characteristics and mechanisms of Pb2+ and Cd2+ by a new agricultural waste-Caragana korshinskii biomass derived biochar[J]. Environmental Science and Pollution Research, 2021,28(11):13800-13818. (SCI,Q2,IF=5.19,DOI:10.1007/s11356-020-11571-9).
(17) Wang Tongtong, Liu Hongtao, Duan Cuihua, Xu Rui, Zhang Zhiqin, She Diao, Zheng Jiyong*. The Eco-Friendly Biochar and Valuable Bio-Oil from Caragana korshinskii: Pyrolysis Preparation, Characterization, and Adsorption Applications[J]. Materials 2020, 13, 3391. (SCI/EI,Q2,IF=3.748,DOI:10.3390/ma13153391).
(18) Zhang Di#, Wang Tongtong#, Zhi Jinhu*, Zheng, Qiangqing, Chen Qiling, Zhang Cong, Li Yalong. Utilization of Jujube Biomass to Prepare Biochar by Pyrolysis and Activation: Characterization, Adsorption Characteristics, and Mechanisms for Nitrogen. Materials 2020, 13, 5594. (SCI/EI,Q2,IF=3.748,并列一作,DOI:10.3390/ma13245594).
(19) Wang Tongtong, Catherine E. Stewart, Ma Jiangbo, Zheng Jiyong*, ZHANG Xingchang. Applicability of five models to simulate water infiltration into soil with added biochar[J]. Journal of arid land, 2017, 9(5):701-711. (SCI,Q2,IF=2.483,中科院三区,DOI:10.1007/s40333-017-0025-3)
(20) Jiang Rui, Wang Tongtong*, Shao Jin, Guo S, Zhu W, Yu YJ, Chen S L, Hatano R. Modeling the biomass of energy crops: Descriptions, strengths and prospective[J]. Journal of Integrative Agriculture, 2017, 16(6):1197-1210. (SCI,Q1,IF=4.348,中科院一区,DOI:10.1016/S2095-3119(16)61592-7).
(21) 王彤彤,马江波,曲东,等.两种木材生物炭对铜离子的吸附特性及其机理研究[J]. 环境科学, 2017,38(5):2161-2171. (高被引论文,F5000项目中国顶尖论文,EI检索,仅中文被引超169次,DOI:10.13227/j.hjkx.201610124)
(22) 王彤彤,崔庆亮,王丽丽,等. Al改性柠条生物炭对P的吸附特性及其机制[J].中国环境科学, 2018, 38(6):2210-2222. (EI检索,DOI:10.19674/j.cnki.issn1000-6923.20180411.001)
(23) 王彤彤, 张剑, 涂川,等. IPSO-BP神经网络在渭河天水段水质评价中的应用[J]. 环境科学与技术, 2013,36(8):175-181.
(24) 王彤彤,吴旺旺,张小平,等.甘肃省能源利用碳足迹估算与分析[J].湖北农业科学,2016, 55(2):349-353.
(25) 王彤彤,翟军海,何欢,郑纪勇,涂川.BP神经网络和SVM模型对施加生物炭土壤水分预测适用性研究[J].水土保持研究, 2017,24(3):86-91.
(26) 王彤彤,王晓琳,任志胜,郑纪勇.不同原料制备的生物炭形貌结构及表面特性表征研究[J].环境科学与技术, 2017,40(1):42-48.
(27) Lianshuai Tan, Zhanghuai Ma, Kaiqi Yang, Qingliang Cui, Ke Wang, Tongtong Wang, Gao-Lin Wu, Jiyong Zheng. Effect of three artificial aging techniques on physicochemical properties and Pb adsorption capacities of different biochars[J]. Science of The Total Environment, 2020, 699: 134223. (SCI/EI,Q1)
(28) Qingliang Cui, Jinliang Xu, Wei Wang, Lianshuai Tan, Yongxing Cui, Tongtong Wang, Gaoliang Li, She diao, Jiyong Zheng. Phosphorus recovery by core-shell γ-Al2O3/Fe3O4 biochar composite from aqueous phosphate solutions[J]. Science of the Total Environment, 2020,729: 138892. (SCI/EI,Q1)
(29) Qingliang Cui, Gaojie Jiao, Jiyong Zheng, Tongtong Wang, Gaolin Wu, Gaoliang Li. Synthesis of a novel magnetic Caragana korshinskii biochar/Mg–Al layered double hydroxide composite and its strong adsorption of phosphate in aqueous solutions[J]. RSC Advances, 2019, 9(32): 18641-18651. (SCI/EI,Q2)
(30) Lianshuai Tan, Cengceng Sun, Ying Wang, Tongtong Wang, Gaolin Wu, Honghua He, Jiyong Zheng. Changes in biochar properties in typical loess soil under a 5-year field experiment[J]. Journal of Soils and Sediments, 2019: 1-12. (SCI,Q2)
(31) 张乾柱, 王彤彤, 卢阳, 等. 基于AHP-GIS的重庆市山洪灾害风险区划研究[J]. 长江流域资源与环境, 2019 (1): 91-102.
(32) 王颖, 孙层层, 周际海, 王彤彤, 郑纪勇. 生物炭添加对半干旱区土壤细菌群落的影响[J]. 中国环境科学, 2019, 39(05):380-389.
(33) 任志胜,齐瑞鹏,王彤彤,解倩,郑纪勇,张兴昌.风化煤对晋陕蒙矿区排土场新构土体土壤呼吸的影响[J].农业工程学报,2015,31(23):230-237. (EI检索)
(34) 任志胜,申卫博,解倩,王彤彤,郑纪勇,张兴昌.砒砂岩区排土场新构土体保水效应研究[J].土壤学报, 2016,53(5):1148–1159.
(35) 解倩,王丽梅,齐瑞鹏,王彤彤,郑纪勇.生物炭对黄绵土水分入渗和持水性能的影响[J].地球环境学报,2016,7(1):65-76+86.
(36) 任志胜,解倩,王彤彤,郭艳亮,王晓琳,郑纪勇,张兴昌.晋陕蒙露天煤矿排土场不同新构土体土壤蒸发特征研究[J].土壤,2016,48(4):824–830.
(37) 张迪,王彤彤,支金虎,张小平,黄敏洁.第二产业碳排放量生态经济及驱动因素分析——以甘肃省为例[J].西南农业学报,2021,34(08):1740-1750.
(38) 张迪,王彤彤, 支金虎. 基于IPSO-BP神经网络模型的山东省碳排放预测及生态经济分析[J].生态科学,2022,41(01):149-158.
(39) 彭琴,石光友,杨艳,王彤彤,杨和山,范剑平,谢志刚. 四种吸附剂材料对镉去除及硬水软化的研究[J].生态科学, 2022,41(06):19-25.
(40) 强音,刘蔷蔷,王一帆,李铭豪,王彤彤,郑纪勇. N、S共掺杂活化碳球对四环素的吸附特性与机理[J].环境科学学报, 2023(05): 249-260. (DOI: 10.13671/j.hjkxxb.2022.0400).
(41) Sharma S K, Kumar A, Sharma G, Wang T, Iglesias-Juez A, Dhiman P. Recent advances in g-C3N4/Metal organic frameworks heterojunctions for high-performance photocatalytic environmental remediation and energy production[J]. Journal of Molecular Liquids, 2023, 382: 121890. (SCI/EI,Q1,IF=6.633,中科院二区,DOI:10.1016/j.molliq.2023.121890).
(42) Kumar A, Rana S, Wang T, Dhiman P, Sharma G, Du B, Stadler F J. 2023. Advances in S-scheme heterojunction semiconductor photocatalysts for CO2 reduction, nitrogen fixation and NOx degradation. Materials Science in Semiconductor Processing, 168:107869. (SCI/EI,Q2,IF=4.1,中科院三区,DOI:10.1016/j.mssp.2023.107869).
(43) Rana G, Dhiman P, Kumar A, Wang T, Sharma G. 2023. Recent advances in Porphyrin-based metal organic frameworks and composites for photocatalytic hydrogen evolution and water treatment. Chemical Engineering Research and Design, 199:620-638. (SCI/EI,Q2,IF=3.9,中科院三区,DOI:10.1016/j.cherd.2023.10.008).
(44) Sharma G, Verma Y, Kumar A, Dhiman P, Wang T, Stadler F J. 2024. A review of graphdiyne: A new material for synthesizing effective adsorbents for aqueous contaminants. New Carbon Materials, 39(2): 173-200. (SCI/EI,Q2,IF=6.5,中科院三区,DOI:10.1016/S1872-5805(24)60830-9).
(45) Sharma P, Kumar A, Sharma G, Wang T, Dhiman P, Stadler F J. 2024. Recent advances in oxygen vacancies rich Z-scheme and S-scheme heterojunctions for water treatment and hydrogen production. Inorganic Chemistry Communications, 161:112112. (SCI,Q1,IF=5.7,中科院三区,DOI:10.1016/j.inoche.2024.112112).
(46) Kumar A, Sharma P, Wang T, Lai C W, Sharma G, Dhiman P. Recent progresses in improving the photocatalytic potential of Bi4Ti3O12 as emerging material for environmental and energy applications. Journal of Industrial and Engineering Chemistry 2024, 138: 1-16. (SCI/EI,Q1,IF=5.9,中科院三区,DOI:10.1016/j.jiec.2024.03.054)
(47) Sahil Rana, Amit Kumar, Tongtong Wang, Gaurav Sharma, Pooja Dhiman, Alberto García-Penas. A review of carbon material-based Z-scheme and S-scheme heterojunctions for photocatalytic clean energy generation. New Carbon Materials, 2024, 39(3): 458-482. (SCI/EI,Q1,IF=3.7,DOI:10.1016/S1872-5805(24)60857-7)
(48) Sharma P, Kumar A, Wang T, Dhiman P, Sharma G, Lai C W. 2024. Bifunctional S-scheme Fe7S8/CuIn5S8 heterostructures with S-vacancies for boosted photocatalytic antibiotic degradation and hydrogen evolution. Journal of Environmental Chemical Engineering 12(3): 112851. (SCI/EI,Q1,IF=7.968,DOI:10.1016/j.jece.2024.112851)
(49) Sharma P, Kumar A, Dhiman P, Sharma G, Sillanpää M, Wang T. 2024. Flower shaped Zn2In2S5/FeIn2S4 as a promising S-Scheme heterojunction photocatalyst for superior ciprofloxacin removal. Materials Today Communications, 39: 109051. (SCI,Q2,IF=3.7,DOI:10.1016/j.mtcomm.2024.109051)
(50) Sahil Rana, Amit Kumar, Gaurav Sharma, Pooja Dhiman, Tongtong Wang*. 2024. Recent Advances in Poly-Heptazine Imide and Based Materials for Photocatalytic Hydrogen Evolution. ChemistrySelect, 9: e202400286. (SCI,Q3,IF=1.9,中科院四区,DOI:10.1002/slct.202400286)
(51) Sharma G, Verma Y, Kumar A, Dhiman P, Wang T, Stadler F J. 2024. A review of graphdiyne: A new material for synthesizing effective adsorbents for aqueous contaminants. Carbon, 226: 119128. (SCI,Q1,IF=10.9,DOI: 10.1016/j.carbon.2024.119128)
(52) Verma Y, Sharma G, Kumar A, Wang Tongtong*, Dhiman P, Mola G T. Zeolites and their composites as novel remediation agent for antibiotics: A review. Environmental Engineering Research, 2025, 30(1): 24006. (ESI高被引论文,SCI,中科院四区,Q2,IF=3.0,DOI: 10.4491/eer.2024.062)
(53) Wang Tongtong, Zhang Di, Shi Hui*, Wang Sen, Wu Bo, Jia Junchao, Feng Zhizhen, Zhao Wenjuan, Chang Zhangyue, Husein D Z. 2024. Two Birds with One Stone: High-Quality Utilization of COVID-19 Waste Masks into Bio-Oil, Pyrolytic Gas, and Eco-Friendly Biochar with Adsorption Applications. C-Journal of Carbon Research, 10: 70. (SCI,Q2,IF=3.9,中科院四区,DOI: 10.3390/c10030070)
(54) Wang T, Husein D Z, Guo S, Zhang X, Kang J, Wang H, Cao S, Shangguan Z, Shi H. 2024. Adsorption characteristics and mechanisms of bisphenol A on novel nitrogen-modified biochar derived from waste masks and biomass. Environmental Science and Pollution Research, 31: 51237-51252. (SCI,Q1,中科院三区,IF=5.2,DOI: 10.1007/s11356-024-34605-y)
(55) Rana S, Kumar A, Wang T*, Dhiman P, Sharma G. Recent progress and new insights on semiconductor heterojunctions powered photocatalytic desulphurization: A review. Chemosphere, 2024, 364: 143237. (SCI,Q1,中科院二区,IF=8.1,DOI: 10.1016/j.chemosphere.2024.143237)
(56) Rana S, Kumar A, Dhiman P, Sharma G, Wang T, García-Peñas A. 2024. Unvieling sulphur vacancy rich MIL-88B(Fe)/Cu7S4 S-scheme heterojunctions with superior photogenic charge separation for promoted tetracycline photocatalytic removal. Inorganic Chemistry Communications, 2024, 169: 113120. (SCI,Q1,IF=5.7,中科院三区,DOI:10.1016/j.inoche.2024.113120).
(57) Rana S, Kumar A, Wang Tongtong*, Dhiman P, Sharma G, Shi Hui. Incorporating C3N5 and NiCo2S4 to Form a Novel Z-Scheme Heterojunction for Superior Photocatalytic Degradation of Norfloxacin. Chemistry, 2024, 6(5): 962-980. (SCI,Q3,IF=2.4,中科院三区,DOI:10.3390/chemistry6050056).
(58) Sharma P, Kumar A, Wang T*, Sillanpää M, Sharma G, Dhiman P. 2024. Advances in bimetallic metal organic frameworks (BMOFs) based photocatalytic materials for energy production and waste water treatment. Frontiers of Environmental Science & Engineering, 18(12): 151. (SCI,中科院二区,Q1,IF=6.1,DOI:10.1007/s11783-024-1911-5).
(59) Rana S, Kumar A, Dhiman P, Sharma G, Wang T. 2025. Recent advances in rare earth metal ferrites-based heterojunctions for photocatalytic water treatment, hydrogen production and CO2 conversion. Journal of Rare Earths, 43(8): 1571-1589. (SCI,Q1,IF=7.2,中科院一区,DOI:10.1016/j.jre.2024.09.022)
(60) Verma A, Sharma G, Wang T*, Kumar A, Dhiman P, García-Peñas A, 2025. Graphitic carbon nitride (g-C3N4)-based magnetic photocatalysts for removal of antibiotics. Carbon Letters, 35: 45-73. (SCI,Q1,IF=5.5,中科院三区,DOI:10.1007/s42823-024-00811-4).
(61) Gaurav Sharma, Akshay Verma, Alberto García-Peñas, Amit Kumar, Pooja Dhiman, Tongtong Wang, Jhaleh Amirian, 2024. Polysaccharide-based biopolymeric magnetic hydrogels for remediation of antibiotics from aqueous solution. International Journal of Biological Macromolecules, 283,137555. (SCI,Q1,IF=7.7,中科院一区,DOI:10.1016/j.ijbiomac.2024.137555).
(62) Amit Kumar, Pankaj Sharma, Tongtong Wang*, Gaurav Sharma, Pooja Dhiman, Akshay Verma, Hui Shi. 2024. BaTiO3/I@g-C3N4 Z-Scheme Heterojunctions With Superior Charge Transfer for Efficient Photocatalytic Antibiotic Wastewater Treatment. ChemistrySelect, 9: e202403270. (SCI,Q3,IF=1.9,DOI:10.1002/slct.202403270)
(63) Sharma P, Kumar A, Wang T, Dhiman P, Sharma G, Rana G. 2024. Recent advances in photothermal assisted photocatalytic CO2 reduction and H2 production by semiconductor heterojunctions. Journal of Environmental Chemical Engineering, 12(6): 114876. (SCI,Q1,IF=7.4,中科院二区TOP期刊,DOI:10.1016/j.jece.2024.114876).
(64) Chen Gang, Cai Jinjun, Li Weiqian, Liu Yitong, Wu Yan, Wang Tongtong*. Impact Mechanisms of Different Ecological Forest Restoration Modes on Soil Microbial Diversity and Community Structure in Loess Hilly Areas. Applied Sciences-Basel 2024, 14, 11162. (SCI,Q1,IF=2.5,中科院三区,DOI:10.3390/app142311162).
(65) Bhaskaralingam A, Sharma G, Wang T*, Kumar A, Dhiman P, Kumar D, Shi H. 2025. Bioremediation of pharmaceuticals waste and pesticides using various microorganisms: A review. Process Safety and Environmental Protection, 194: 1116-1132. (SCI,Q1,IF=6.9,中科院二区TOP期刊,DOI:10.1016/j.psep.2024.12.050).
(66) Sharma P, Kumar A, Dhiman P, Sharma G, Wang T, García-Penas A, Lai C W. 2025. Recent advances and perspective in Boron Carbon Nitride and Boron Nitride based materials for photocatalytic energy and environmental applications. Journal of Water Process Engineering, 70: 106896. (SCI,Q1,IF=6.3,中科院二区,DOI:10.1016/j.jwpe.2024.106896).
(67) Verma A, Sharma G, Wang T*, Kumar A, Dhiman P, Verma Y, Bhaskaralingam A, García-Penas A. 2025. Graphene oxide/chitosan hydrogels for removal of antibiotics. Environmental Technology, 46(17), 3391-3421. (SCI,Q2,IF=2.2,中科院四区,DOI:10.1080/09593330.2025.2464267).
(68) Wang T, Pan Z, Zhang D, Shi H, Yılmaz M, Kumar A, Sharma G, Liu T. 2025. Efficient Application to Remove Arsenic and Antimony from the Water Environment Using Renewable Carbon-Based Materials: A Review. Journal of Renewable Materials, 13(3): 1-10. (EI,DOI:10.32604/jrm.2025.02024-0043).
(69) Pankaj Sharma, Amit Kumar, Tongtong Wang*, Pooja Dhiman, Gaurav Sharma, Sahil Rana. 2025. Constructing a visible-active MgO/NiWO Z-scheme heterojunction for efficient photodegradation of malachite green. Journal of Chemical Technology & Biotechnology, 100: 1273-1287. (SCI,Q3,IF=2.4,中科院四区,DOI:10.1002/jctb.7859).
(70) Zhang D, Wu B, Wang T*, Yılmaz M, Sharma G, Kumar A, Shi H. 2025. Multi-mechanism synergistic adsorption of lead and cadmium in water by structure-functionally adapted modified biochar: A review. Desalination and Water Treatment, 322: 101156. (SCI,DOI:10.1016/j.dwt.2025.101156).
(71) Rana S, Kumar A, Dhiman P, Lai C W, Sharma G, Wang Tongtong. 2025. Fabrication of S-scheme H-C3N4/FeNi2S4 heterojunction for visible light driven photocatalytic degradation of ciprofloxacin. Heliyon, 11: e42935. (SCI,DOI:10.1016/j.heliyon.2025.e42935).
(72) Jinhu Zhi, Xinlu Bai, Qunyan Wang, Tongtong Wang*, Yaksha Verma, Gaurav Sharma*, Amit Kumar, Pooja Dhiman. 2025. Natural gums-derived hydrogels for adsorptive removal of heavy metals: A review. International Journal of Biological Macromolecules, 322: 143350. (SCI,Q1,IF=7.7,中科院一区,DOI:10.1016/j.ijbiomac.2025.143350).
(73) Gaurav Sharma*, Akshay Verma, Tongtong Wang, Amit Kumar, Pooja Dhiman, Genene Tessema Mola, Jinhu Zhi. 2025. ZIF-based hybrid magnetic nanocomposites for the removal of organic pollutants. Journal of Water Process Engineering, 75: 107898. (SCI,Q1,IF=6.3,中科院二区,DOI:10.1016/j.jwpe.2025.107898).
(74) Yaksha Verma, Akshay Verma, Aishwarya Bhaskaralingam, Pooja Dhiman, Tongtong Wang, Amit Kumar, Gaurav Sharma*. 2025. Application of zero valent iron and its derivatives in removal of toxic Metal ions from Groundwater. Water, 17: 1524. (SCI/EI,Q2,IF=3.0,中科院四区,DOI:10.3390/w17101524).
(75) Kumar A*, Rana S, Dhiman P, Lai C W*, Sharma G, Wang T. 2025. Advances in enhancing the photocatalytic potential of AgVO3 catalyst for environmental and energy applications: A review. Journal of Environmental Chemical Engineering, 13: 117276. (SCI/EI,Q1,IF=7.4,中科院二区,DOI:10.1016/j.jece.2025.117276).
(76) Wang Z, Wang Tongtong*, Guo Y, Zhang J. 2025. Recent Advances in Functional Polymer Materials for Water Treatment. Polymers, 17: 1654. (SCI,Q1,IF=4.9,中科院三区,DOI:10.3390/polym17121654).
(77) Wang S, Zhang D, Pan Z, Wu B, Wang Tongtong*, Zhang Y, Lu X, Zhou F, Zheng Q, Shi H. 2025. Efficient removal of phenol and bisphenol A complex pollutants by activated carbon sphere-based material: Adsorption characteristics and mechanisms. Korean Journal of Chemical Engineering, 42: 2275-2293. (SCI/EI,Q1,IF=3.2,中科院四区,DOI:10.1007/s11814-025-00510-4).
(78) Sharma P, Kumar A, Dhiman P, Lai C W, Sharma G, Wang T. 2025. Harnessing MnCdS/AgIn5S8 heterojunction with promoted interfacial charge transfer for ultra-high efficiency photocatalytic degradation of levofloxacin. Materials Science in Semiconductor Processing, 199: 109825. (SCI/EI,Q1,IF=4.6,中科院三区,DOI:10.1016/j.mssp.2025.109825).
(79) 王彤彤,石辉,王森. Z-Scheme型N,S共掺杂生物碳基Ag3PO4复合材料增强可见光催化高效降解诺氟沙星:协同机制和降解过程[C]//中国环境科学学会2024年科学技术年会论文集(三), 2024: 234. DOI:10.26914/c.cnkihy.2024.024869.
(80) 吴博,王彤彤,王会霞,等. 葡萄糖基改性碳球对水中Pb2+和Cd2+的吸附特性与机制[J]. 环境科学与技术, 2025, 48 (06): 43-53. DOI:10.19672/j.cnki.1003-6504.2178.24.338.
(81) 潘振辉,王彤彤,王会霞,等. 氮改性口罩基生物炭对苯酚和双酚A的吸附性能及机制[J/OL]. 环境化学, 1-13[2025-07-08].
(82) 马海波, 肖波, 李琳, 莫多思, 王森, 王彤彤, 石辉. 煤矿全生命周期生态环境风险管控体系构建及模型应用[J]. 煤炭经济研究, 2025, 45 (09): 145-153.
(83) Ma Z, Zhou L, Wang S, Zhu S, Zhao Z, Li R, Wang T, Guo H. 2025. Multidimensional synergistic management of acid mine drainage: Constructing closed-loop technological systems bridging contamination control and resource circulation. Journal of Water Process Engineering, 78: 108782.
(84) Tongtong Wang*, Ying Gao, Amit Kumar, Pooja Dhiman*, Sahil Rana, Gaurav Sharma, Ankush Chauhan, Di Zhang, Hui Shi. 2025. Novel visible light driven MIL-101Fe/Cu9S5 S-scheme heterojunction photocatalyst for high performance removal of chloramphenicol: Degradation pathways and mechanisms. Journal of Environmental Chemical Engineering, 13(5): 118362. (SCI/EI,Q1,IF=7.2,中科院二区,DOI:10.1016/j.jece.2025.118362).
(85) Verma Y, Dhiman P, Kumar A, Wang T, Sharma G. 2025. Sustainable Rice Husk Ash-Tannin Xerogel for Ciprofloxacin Removal from Water. Environmental Research, 122701. (SCI/EI,Q1,IF=7.7,中科院二区,DOI:10.1016/j.envres.2025.122701).
(86) Verma P, Kumar A, Wang T, Kaushik R, Lai C W. 2025. Recent advances and trends in food waste valorization via microwave and ultrasonic-assisted hydrolysis into bio-energy and value-added products-A sustainable approach. Biomass and Bioenergy, 203: 108340. (SCI/EI,Q1,IF=5.8,中科院二区,DOI:10.1016/j.biombioe.2025.108340).
(87) Zhenhui Pan, Tongtong Wang*, Hui Shi*, Huixia Wang, Sen Wang. Removal of bisphenol A by N,S co-modified mask-based biochar: Adsorption characteristics and mechanisms. Recent Innovations in Chemical Engineering, 2025. (EI期刊,DOI:10.2174/0124055204418879251015105138).
(88) Zhang Di, Yang Xinyu, Wang Tongtong*, Wang Huixia, Cao Shumiao, Shi Hui*. 2025. Efficient adsorption of typical antibiotics by petroleum coke-based ultra-large surface porous carbon materials: Mechanism and cost analysis. Chemical Engineering Research and Design. 222: 557-572. (SCI/EI,Q1,IF=3.9,中科院三区,DOI:10.1016/j.cherd.2025.09.035)
(89) Lei X, Liu D, Zhou W, Liu X, Gao X, Wang T*, Shao X. Nitrogen-Enriched Porous Carbon from Chinese Medicine Residue for the Effective Activation of Peroxymonosulfate for Degradation of Organic Pollutants: Mechanisms and Applications. Catalysts. 2025; 15(10):926. (SCI/EI,Q1,IF=4.0,中科院三区,DOI:10.3390/catal15100926)
(90) Verma Y, Dhiman P, Wang T, García-Peñas A, Lai C W, Mola G T, Sharma G. 2025. Chitin-cl-poly (acrylamide-co-guar gum)–Nickel oxide-Zirconium phosphate nanocomposite hydrogel as miniature adsorptional-photocatalysts units for removal of Tetracycline. Inorganic Chemistry Communications, 182: 115614. (SCI/EI,Q1,IF=5.4,中科院三区,DOI:10.1016/j.inoche.2025.115614)
(91) Sharma G, Verma A, Zhi J, Wang T, Verma Y, Dhiman P, Bai X, Wang R. 2026. Heteroatom-doped MOFs as hybrid materials for the removal of organic pollutants. Coordination Chemistry Reviews, 549: 217260. (SCI,Q1,IF=23.5,中科院一区TOP期刊,DOI:10.1016/j.ccr.2025.217260)
(92) Deol, P., Madhumita, M., Kumar, A., Wang, T. 2025. Development of Artemesia vulgaris. L polysaccharide-based biodegradable edible films incorporated with purple rice husk extract: characterization and process optimization. Journal of Food Measurement and Characterization. (SCI,Q1,IF=3.3,中科院三区,DOI:10.1007/s11694-025-03594-y)
(93) Verma, Y., Sharma, G., Kumar, A., Wang, T., Dhiman, P. 2025. Nanocatalysts in Modern Organic Reactions: Current Trends and Future Perspective: A Mini Review. Current Organic Chemistry. (SCI,Q3,IF=2.1,中科院四区,DOI:10.2174/0113852728395955250905165640)
(94) Sharma, P., Rana, S., Dhiman, P., Wang, T., Mola, G.T., Sharma, G. 2025. Recent advances, materials resources and mechanism insight for designing of renewable photocatalysts and green photocatalytic processes for energy production. Journal of Environmental Chemical Engineering, 120153. (SCI/EI,Q1,IF=7.2,中科院二区,DOI:10.1016/j.jece.2025.120153).
(95) Rana, S., Dhiman, P., Verma, A., Wang, T., Sharma, G. 2026. Current advancements in bimetallic sulfides based heterojunctions towards photocatalytic environmental remediation. Micro and Nanostructures, 210, 208461. (SCI,Q2,IF=3.0,中科院三区,DOI:10.1016/j.micrna.2025.208461).
(96) Verma, P., Kumar, A., Choudhary, R., Lai, C.W., Kaushik, R., Wang, T. 2025. Recent progress in valorization of agro-food wastes in alignment with United Nations sustainable development goals. International Journal of Environmental Science and Technology, 23(2), 112. (SCI,Q2,IF=3.4,中科院四区,DOI:10.1007/s13762-025-06856-w).
(97) Verma, A., Sharma, G., Wang, T.*, Kumar, A., Dhiman, P., Zhi, J. 2025. Biomass-derived activated carbon/chitosan hydrogel composites for adsorption of organic and inorganic pollutants. Iranian Polymer Journal. (SCI,Q2,IF=2.8,中科院三区,DOI:10.1007/s13726-025-01592-x).
(98) Rana S, Kumar A, Dhiman P, Wang T., Lai C W. 2026. Boosting the photocatalytic degradation of norfloxacin from water using promising MIL-53(Fe)/TiN S-scheme nano-heterojunctions. Journal of Photochemistry and Photobiology A: Chemistry. 474: 117009. (SCI,Q2,IF=4.7,中科院二区,DOI:10.1016/j.jphotochem.2025.117009).
(99) Yan, F., Wu, W., Jia, J., Zhang, X., Wang, T. 2025. Key soil properties governing Cr(VI) retention in 16 natural soils: A comprehensive geochemical and statistical analysis. PLOS ONE, 20(12), e0338375. (SCI,Q2,IF=2.6,中科院三区,DOI:10.1371/journal.pone.0338375).
(100) Bhaskaralingam A, Naushad M, Dhiman P, Wang T, Jain S, Kumar D, Sharma G. 2026. Eco-engineered microbes: Advancing green wastewater management. Journal of King Saud University-Science, 38: 14212025. (SCI,Q2,IF=3.6,中科院三区,DOI:10.25259/JKSUS_1421_2025).
(101) Bhaskaralingam A, Naushad M, Dhiman P, Kumar A, Wang T, Kumar D, Sharma G. 2026. Biogenic nanoparticles-the future of eco-friendly wastewater treatment: a review. Applied Water Science, 16: 60. (SCI,Q1,IF=5.7,中科院三区,DOI:10.1007/s13201-025-02736-3).
(102) Choudhary R, Verma P, Kumar A, Kaushik R, Wang T. 2025. Bio-Functional and Medicinal Benefits of Fruit Vinegar: A Natural Alternative for Health and Food Preservation. Journal of Culinary Science and Technology. (ESCI,Q4,IF=19,中科院四区,DOI:10.1080/15428052.2025.2599863).
(103) Sharma P, Rana S, Dhiman P, Naushad M, Wang T, Mola G T, Sharma G. 2026. Recent advances in rare earth metal oxides and sulfides-based heterojunctions for photocatalytic energy applications. Journal of Rare Earths. (SCI,Q1,IF=7.2,中科院一区,DOI:10.1016/j.jre.2026.01.037)
(104) Sharma G, Verma Y, Dhiman P, Wang T, Jain S, Peñas A G, Lai C W. 2026. Gellan gum–alginate/PVA-co-PAM crosslinked hydrogel for phenol adsorption: Fabrication, characterization, and performance. International Journal of Biological Macromolecules, 350,150967. (SCI,Q1,IF=8.5,中科院二区,DOI:10.1016/j.ijbiomac.2026.150967)
(105) Sharma J, Kumar A, Lai C W, Sharma G, Wang T, Kondal N, Dhiman P. 2026. Bi7O9I3/g-C3N4/ZnO ternary heterojunction: dual-function efficiency for boosted photocatalytic methyl orange degradation and antibacterial activity. ENGINEERING Environment, 20: 74.(SCI,Q1,IF=6.4,中科院二区,DOI:10.1007/s11783-026-2174-0)
(106) Dhiman P, Sharma J, Naushad M, Kumar A, Lai C W, Wang T, Sharma G. 2026. Construction of highly efficient Bi12O17Cl2/MnWO4 S-scheme heterojunction for photocatalytic degradation of Bromophenol blue dye. Journal of Environmental Management, 404: 129135. (SCI,Q1,IF=8.4,中科院二区,DOI:10.1016/j.jenvman.2026.129135)
(107) 路翔云,王彤彤,王会霞,等. 石油焦基多孔超大比表面积吸附剂制备及其对Sb(Ⅲ)的吸附特性研究[J]. 环境污染与防治, 2026, 48 (02): 45-52.
(108) Verma A, Dhiman P, Mola G T, Wang T, Sharma G. 2026. Designing a visible light driven BiOBr/MoS2/GO ternary nanocomposite for photo degradation of ciprofloxacin. Journal of Nanoparticle Research, 28: 63. (SCI,Q3,IF=2.6,中科院四区,DOI:10.1007/s11051-026-06576-3)
(109) Lu S, Lu X, Shi H, Wang T, Wei S, Zhang E, Lai Z. 2026. Future water erosion on the Tibetan Plateau: Projections from coupled model intercomparison project phase 6 (CMIP6). Journal of Hydrology: Regional Studies, 64: 103331. (SCI,Q1,IF=6.4,中科院二区,DOI:10.1016/j.ejrh.2026.103331)
(110) Tongtong Wang*, et al. 2026. Sustainable Water Remediation with Algae-Derived Adsorbents: From Synthesis Strategies to Adsorption Performance and Mechanisms. RSC advances. (SCI,Q2,IF=6.4,中科院三区)
2.授权的专利:
王彤彤, 郑纪勇. 超声活化生物炭及其制备方法与应用(授权,专利号:202110267977X).
郑纪勇,王彤彤等,生物炭及其制备方法以及其对水体中铅的去除方法(专利号:2016106166955).
王彤彤,石辉.一种碳基吸附剂及其氮改性废弃口罩资源化制备方法和应用(实审,专利号:2023116216787).
王彤彤.一种消毒剂混合调配搅拌设备(授权,专利号:2023231826718).
王彤彤,陈刚,李维倩,蔡进军,石辉,王森.一种土壤改良剂快速施用装置(授权,专利号:2024209686148).
王彤彤,梁雨晴,石辉,王森,莫多思.一种绿色矿山边坡治理装置(授权,专利号:2024209686082).
王彤彤,张迪,石辉,潘振辉,莫多思.一种土壤改良剂连续式输送分配器(授权,专利号:2024223800104).
3.参编的专著:
《Recent Advances inFunctional Polymer Materialsfor Water Treatment》. 编辑:Zhiwei Wang, Tongtong Wang, Yanzhu Guo, Jian Zhang. ISBN:9783725859153
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学校介绍
西安建筑科技大学坐落在历史文化名城西安,南眺驰名中外的唐代大雁塔,北临举世闻名的明代长安城墙。学校总占地4300余亩,校园环境优美,办学氛围浓郁。学校办学历史源远流长,其办学历史最早可追溯到始建于1895年的北洋大学,积淀了我国近代高等教育史上最早的一批土木、建筑、环境类学科精华。1956年,在全国第三次高等学校院系调整时由原东北工学院、西北工学院、青岛工学院和苏南工业专科学校的土木、建筑、环境类系(科)整建制合并而成,时名西安建筑工程学院。1959年和1963年,曾先后易名为西安冶金学院、西安冶金建筑学院。1994年3月8日,经国家教委批准,更名为西安建筑科技大学,是公认的中国最具影响力的土木建筑类院校之一及原冶金部重点大学。
西安建筑科技大学继承和发扬了百余年来所形成的专业优势,经过并校50余年来历代建大师生的不懈拼搏,现已发展成为了一所具有深厚文化底蕴,浓郁学术氛围,优美校园环境,并在国内外享有较高声誉的,以土木、建筑、环境、材料学科为特色,工程学科为主体,兼有文、理、经、管、艺、法等学科的多科性大学。学校现有16个院(系),60个本科专业面向全国第一批招生,有权招收保送生,实行本硕连读。除建筑学、城市规划和景观学三个专业为五年学制外,其它本科专业均为四年制,建筑学、城市规划、土木工程、环境工程、建筑环境与设备工程、工程管理、材料科学与工程、给水排水工程、艺术设计9个专业为国家级特色专业。建筑学、城市规划、土木工程、建筑环境与设备工程、环境工程、工程管理、交通工程、给水排水工程、环境科学、冶金工程、材料科学与工程、信息管理与信息系统、艺术设计、社会体育(体育建筑管理)、会计学等15个本科专业为陕西省特色专业。学校现有国家高等学校教学指导委员会成员18人。
学校现有教职工2600余名,其中,中国工程院院士4人,中国科学院院士1人,南非科学院院士1人,具有高级职称的教师、工程技术人员及研究人员近800名,形成了一支阵容整齐、结构合理、素质优秀、实力雄厚的师资队伍。目前,学校在校各类学生近40000人,其中本科生20000余人,研究生近6000人,职业技术学院、继续教育学院在册学生近14000人。
西安建筑科技大学是国务院首批批准有权授予博士、硕士和学士学位的单位。学校设立研究生院,现有一级学科博士点7个、二级学科博士点31个,一级学科硕士点25个、二级学科硕士点94个,硕士点基本涵盖学校所有本科专业。学校拥有建筑学、土木工程、环境科学与工程、材料科学与工程、城乡规划学、风景园林学和管理科学与工程7个博士后流动站,结构工程、环境工程、建筑设计及其理论三个学科为国家级重点学科。
半个多世纪以来,西安建筑科技大学铸就了“传承文明、创造未来、育材兴国、科技富民”的办学宗旨,形成了“自强、笃实、求源、创新”的校训和“为人诚实、基础扎实、作风朴实、工作踏实”的优良校风,先后为国家培养了21万余名德才兼备的栋梁之才,研发了大量高水平的科研成果,为国家经济社会建设和行业发展做出了突出的贡献。
近年来,学校以“提高教育教学质量求生存、狠抓学科建设上水平、优化资源配置求效益、深化体制改革促发展”为办学思路,全面实施校园建设工程、教育教学质量工程、学科建设工程、人才队伍建设工程、创新工程、文化建设工程等六大奠基工程,使得学校步入了和谐快速发展的道路,学校综合办学实力大大增强,相继实现了院士、国家重点学科、一级学科博士点、博士后流动站与博士点数、硕士点数、学校综合排名、校园面积、年经费到款额等衡量学校办学层次重要指标零的突破或翻番。学校顺利入选教育部首批“卓越工程师教育培养计划”实施学校、全国64所“研究生专业学位教育综合试点单位”、“国家高水平大学公派研究生项目平台和优秀本科生国际交流项目实施院校”,荣获全国50所“工程硕士教育创新院校”和全国60所“毕业生就业典型经验高校”。2011年,学校被中共中央授予“全国先进基层党组织”荣誉称号。
“十二五”期间,学校将乘科教兴国、西部大开发的春风,全面贯彻落实《国家中长期教育改革和发展规划纲要(2010-2020年)》和《陕西省贯彻<国家中长期教育改革和发展纲要(2010-2020年)>实施意见》,坚持“传承文明、开创未来、育材兴国、科技富民”的办学宗旨,坚持“提高教育教学质量求生存,狠抓学科建设上水平,优化资源配置求效益,深化体制改革促发展”的总体发展思路,抢抓机遇,迎难而上,振奋精神,开拓进取,努力创建特色鲜明的国际知名国内高水平大学。
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西安建筑科技大学2014年研究生学费及奖助学金政策
学校从2008年开始面向统招硕士、博士实行研究生奖助学金政策。对于在入学考试中综合成绩优秀的学生,学校按照一定的比例,给予免去学费一半或全部的学业奖学金。此外,统招研究生还可参加优秀奖学金的评定,按照学位层次及评定等级的不同,可享受100元/月至400元/月不等的优秀奖学金。同时学校还设有金诚信奖学金、长江精工钢构奖学金、宝钢奖学金、西飞铝业建筑奖(助)学基金、高科集团·天地源奖学金、海螺奖学金等数十项社会企业奖学金。并设有研究生“三助”、研究生优秀论文奖等。
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