王树涛

基本信息 科学研究 教学研究 论文著作 新页签 新建主栏目 基本信息 名称 王树涛，男，博士/副教授，硕士生导师，环境学院教师，黑龙江省臭氧应用与设备开发重点实验室主任；生态环境部城市黑臭水体整治专项行动专家库成员，黑龙江省商务厅商贸流通专家库成员，哈尔滨市生态环境局专家库成员；国际水协会（IWA）会员，中国生态毒理学会会员，黑龙江省能源与环境学会会员；2008年1月获得哈尔滨工业大学市政工程博士学位，同年留校任教；2011-2012年在美国佐治亚理工学院从事访问学着研究。主要研究方向包括有毒污染物的环境毒理学与健康、污水深度处理理论与技术，污染土壤的修复及生态安全性评估、可再生资源开发利用等。主持和参与国家重大科技专项基金、国家留学回国启动基金、中国博士后科学基金面上项目、黑龙江省自然科学基金、黑龙江省博士后基金面上项目、城市水资源与水环境国家重点实验室基金等20余项。获得哈尔滨工业大学教学成果奖两项；主编《水污染控制工程》（化工出版社）、《环境工程设备原理与应用》（高教出版社）两部教材；发表核心期刊以上论文60余篇，其中SCI收录30余篇、EI收录10余篇。 工作经历 标题 现职 起讫时间 2008.07- 职位/职称 讲师、副教授 工作单位 哈尔滨工业大学环境学院 简单介绍 标题 博士后 起讫时间 2008.03-2011.03 职位/职称 博士后 工作单位 哈尔滨工业大学环境科学与工程博士后流动站 简单介绍 标题 留学经历 起讫时间 2011.04-2012.04 职位/职称 访问学者 工作单位 Geogia Institute of Technology, USA（美国佐治亚理工学院） 简单介绍 教育经历 标题 本科 起讫时间 1995.09-1999.07 所学专业 环境科学 学习机构 东北农业大学 学历 本科 简单介绍 标题 硕士 起讫时间 2001.09-2003.12 所学专业 环境工程 学习机构 哈尔滨工业大学 学历 硕士研究生 简单介绍 标题 博士 起讫时间 2004.03-2007.12 所学专业 市政工程 学习机构 哈尔滨工业大学 学历 博士生研究生 简单介绍 荣誉称号 研究领域 名称 1.有毒污染物的环境毒理学与健康； 2.高级氧化除污染理论与技术； 3.土壤修复及其生态安全性评估与评价； 4. 可再生资源开发利用技术 科研项目 奖项成果 讲授课程 名称 《环境工程中的CAD技术》 《环境毒理学》 《环境分析化学实验》 《生活中的毒理学与健康》 《环境规划与评价》 招生信息 名称 招纳勤勉机智有抱负、会生活、还懂些哲学和艺术的有志青年。 期刊论文 论文标题 微气泡O3/H2O2深度处理某化工园区二级出水效能与机制 作者 郭金虎，王树涛* 发表时间 2023.05 期刊名称 哈尔滨工业大学学报 期卷 2023（05） 简单介绍 化工园区废水经过二级处理后，仍含有多种有毒污染物，依然对生态环境存在较大风险，为此，建立微气泡 O3/H2O2 深度处理工艺，研究某工业园区二级出水处理效能，确定最佳工艺参数，探究污染物降解机制，并对处理出水进行毒性评价。结果表明，在 pH 为 7.3、臭氧投加量为 60 mg/L、H2O2初始投加量为 114 mg/L、反应时间为 15 min 条件下，微气泡 O3/H2O2对二级出水中有毒污染物具有良好的降解效果，对 COD 和 TOC 去除率分别达到 47.41%和 46.61%。微气泡 O3能够显著提高臭氧利用效率，缩短反应时间。与普通 O3曝气相比，臭氧利用率提高 10%，反应时间缩短 2/3。微气泡 O3/H2O2工艺过程中，有机物去除过程遵循表观二级反应动力学；电子顺磁共振（EPR）技术证明羟基自由基（·OH）参与有机物的降解过程，H2O2 促进·OH 的生成，微气泡曝气强化 O3/H2O2产生更多的·OH。二级出水中溶解性有机物(DOM)在深度处理过程中存在大分子物质向小分子物质转化的趋势。H2O2 能够增强臭氧对疏水中性组分的去除能力，改变臭氧对污染物的降解途径。添加 H2O2 后，发光抑制率由 100%（微气泡 O3）降低至 20%（微气泡 O3/H2O2），表明 H2O2能够有效抑制臭氧氧化深度处理过程中急性毒性的升高。 关键词：微气泡 O3；化工园区废水；废水深度处理；急性毒性；溶解性有机物 论文标题 Investigating the mechanism of DBDPE-induced neurotoxicity based on adverse outcome pathways combined with a silicon approach 作者 Liying Dong, Shutao Wang*, Xingyu Wang, Ziwei Wang, Dongmei Liu, Hong You 发表时间 accepted in Feb., 2023 期刊名称 Journal of Hazardous Materials 期卷 449(131021) 简单介绍 Current studies have shown an association between DBDPE and neurotoxicity. In this study, the adverse outcomepathway (AOP) and mechanistic analysis of DBDPE-induced neurotoxicity were explored by a combination of invitro and in silico approaches in SK-N-SH cells. DBDPE-induced oxidative stress caused DNA strand breaks,resulting in the activation of poly (ADP-ribose) (PAR) polymerase-1 (PARP-1). Activation of PARP1 could causetoxic damage in various organ systems, especially in the nervous system. DBDPE-induced apoptosis via thecaspase-dependent intrinsic mitochondrial pathway and the PARP1-dependent pathway. Activation of PARP1 byDBDPE was deemed the initiating event, thereby affecting the key downstream biochemical events (e.g., ROSproduction, DNA damage, membrane potential changes, and ATP reduction), which induced apoptosis.Furthermore, excessive activation of PARP1 was accompanied by the translocation of the apoptosis-inducingfactor (AIF), which was associated with PARP1-dependent cell death. The inhibition of PARP1 by PJ34reduced DBDPE-induced apoptosis and maintained cellular ATP levels. PJ34 also prevented the translocation ofAIF from the mitochondria to the nucleus. These findings improve the understanding of the mechanism ofDBDPE-induced neurotoxic effects and provide a theoretical basis for the ecological risk of DBDPE. 论文标题 DBDPE and ZnO NPs Synergistically Induce Neurotoxicity of SK-N-SH Cells and Activate Mitochondrial Apoptosis Signaling Pathway and Nrf2-mediated Antioxidant Pathway 作者 LiyingDong, Shutao Wang*, Lin Zhang, Dongmei Liu, HongYou. 发表时间 Jan., 2023 期刊名称 Journal of Hazardous Materials 期卷 441(2023): 129872 简单介绍 Decabromodiphenyl ethane (DBDPE), a new brominated flame retardant, could negatively affect neurobehavior and pose health risks to humans. Humans are also exposed to widely used nanomaterials. This study investigated the combined toxic effects and action types of DBDPE and Zinc oxide nanoparticles (ZnO NPs) on human neuroblastoma SK-N-SH cells and the toxicity mechanisms. DBDPE inhibited the viability of SK-N-SH cells by 21.87% at 25 mg/L. ZnO NPs synergistically exacerbated the toxic effects of DBDPE. DBDPE and ZnO NPs caused excessive ROS production and inhibition of antioxidant enzyme (SOD and GSH) activity in cells, thus causing oxidative cellular damage. Moreover, DBDPE and ZnO NPs caused apoptosis by disrupting mitochondrial kinetic homeostasis, reducing mitochondrial membrane potential (MMP), increasing cytochrome C release and regulating Bax/Bcl-2 and Caspase-3 mRNA and protein expression. DBDPE and ZnO NPs increased the mRNA expression of nuclear factor erythroid 2- related factor (Nrf2) and its downstream genes. The molecular mechanisms revealed that oxidative stress, apoptosis and mitochondrial dysfunction were the critical factors in combined cytotoxicity. The bioinformatics analysis further indicated that co-exposure affected Nrf2 activation, apoptotic factors expression and mitochondrial fusion. The findings enrich the risk perception of neurotoxicity caused by DBDPE and ZnO NPs. 论文标题 Integration of transcriptomic and proteomic reveals the toxicological molecular mechanisms of decabromodiphenyl ethane (DBDPE) on Pleurotus ostreatus 作者 Wanlun Li, Shutao Wang*, Yangyang Chen, Lu Liu, Shuying Hou, Hong You 发表时间 Sep., 27,2022 期刊名称 Environmental Pollution 期卷 314 (2022) 120263 简单介绍 Decabromodiphenyl ethane (DBDPE), as one of the most widely used new brominated flame retardants (NBFRs),can pose a potential threat to human health and the environment. An integrated transcriptome and proteome wasperformed for investigating the toxicological molecular mechanisms of Pleurotus ostreatus (P. ostreatus) during thebiodegradation of DBDPE at the concentrations of 5 and 20 mg/L. A total of 1193/1018 and 92/126 differentiallyexpressed genes/proteins (DEGs/DEPs) were found, respectively, with DBDPE exposure at 5 and 20 mg/L. TheseDEGs and DEPs were mainly involved in the cellular process as well as metabolic process. DEPs for oxidationreductionprocess and hydrolase activity were up-regulated, and those for membrane, lipid metabolic processand transmembrane transport were down-regulated. The DEGs and DEPs related to some key enzymes weredown-regulated, such as NADH dehydrogenase/oxidoreductase, succinate dehydrogenase, cytochrome C1 protein,cytochrome-c oxidase/reductase and ATP synthase, which indicated that DBDPE affected the oxidativephosphorylation as well as tricarboxylic acid (TCA) cycle. Cytochrome P450 enzymes (CYPs) might be involvedin DBDPE degradation through hydroxylation and oxidation. Some stress proteins were induced to resist DBDPEtoxicity, including major facilitator superfamily (MFS) transporter, superoxide dismutase (SOD), molecularchaperones, heat shock proteins (HSP20, HSP26, HSP42), 60S ribosomal protein and histone H4. The findingshelp revealing the toxicological molecular mechanisms of DBDPE on P. ostreatus, aiming to improve the removalof DBDPE. 论文标题 Toxicity evaluation of decabromodiphenyl ethane (DBDPE) to Pleurotus ostreatus: Oxidative stress, morphology and transcriptomics 作者 WANG Shutao*, LI Wanlun, CHEN Yangyang, LIU Lu, HOU Shuying, YOU Hong. 发表时间 available online in Mar.4, 2022. 期刊名称 Journal of Hazardous Materials 期卷 431(2022):128625 简单介绍 Decabromodiphenyl ethane (DBDPE), one widely used new brominated flame retardant, was of great concerndue to its biotoxicity. The toxic evaluation of DBDPE (1–50 mg/L) to white-rot fungus (Pleurotus ostreatus), inu0002cluding oxidative stress, morphology and transcriptomics was conducted aiming at improving its biodegradau0002tion. Fungal growth and ATPase activity were obviously inhibited by DBDPE at ≥ 10 mg/L with the exposurefrom 48 h to 96 h. DBDPE could induce oxidative stress to P. ostreatus. The activity of SOD (superoxide dismuu0002tase), CAT (catalase) and GSH (glutathione) were all promoted by DBDPE at ≤ 5 mg/L and inhibited at > 5 mg/ L with 96-h exposure. MDA (malondialdehyde) content rose obviously with DBDPE exposure (10–50 mg/L). Themycelium was wizened under 20 mg/L DBDPE exposure according to SEM observation. Transcriptomics analysissuggested that DBDPE could change many functional genes expression of P. ostreatus. GO analysis indicated DBu0002DPE could affect biological process and cellular component by inhibiting electron transport, mitochondrial ATPsynthesis, oxidoreductase activity as well as transporter activity. KEGG enrichment pathways analysis indicatedDBDPE could inhibit oxidative phosphorylation, tricarboxylic acid (TCA) cycle and carbon metabolism by downu0002regulating the genes related to NADH reductase/dehydrogenase, succinate dehydrogenase, cytochrome-c reducu0002tase/oxidase, cytochrome C1 protein and ATP synthase. 论文标题 Biodegradation of decabromodiphenyl ethane (DBDPE) by white-rot fungus Pleurotus ostreatus: characteristics, mechanisms, and toxicological response 作者 WANG Shutao*, LI Wanlun, LIU Lu, QI Hong, YOU Hong 发表时间 Jan., 2022 期刊名称 Journal of Hazardous Materials 期卷 424 (2022): 127716. 简单介绍 Decabromodiphenyl ethane (DBDPE) can pose a potential toxic threat to human beings and the environment. P. ostreatus, as one of the typical white-rot fungi, can effectively degrade various refractory pollutants. The biodegradable characteristics of DBDPE by P. ostreatus, as well as the mechanisms, and toxicological response were investigated in this study. The removal rate reached 47.73% and 43.20%, respectively, for 5 and 20 mg/L DBDPE after 120-h degradation by P. ostreatus. As a coexisting substance, Pb could inhibit the biodegradation. It is found that both the intracellular enzyme (P450) and extracellular enzymes (manganese peroxidase (MnP), lignin peroxidase (LiP), and laccase (Lac)) played a very important role in the biodegradation of DBDPE, of which Lac dominated the degradation. The toxic response was monitored during the degradation. The activities of SOD and CAT were enhanced to eliminate excess ROS in P. ostreatus triggered by DBDPE. In addition, debromination, hydroxylation, and oxidation were inferred as the main degradation pathways preliminarily. The findings provide a theoretical basis for the application of microbial degradation of DBDPE contamination. 论文标题 A novel co-catalyzed system between persulfate and chlorite by sonolysis for removing tr iphenylmethane der ivative 作者 Qihui Xu, Haoran Leng, Hong You*, Shutao Wang*, Haoyang Li, Yibo Yu 发表时间 June 9, 2022 期刊名称 Journal of environmental sciences 期卷 112 (2022) 291–306 简单介绍 Triphenylmethane (tpm) derivatives (e.g. tpm CV ) have threatened the safety of the aquaticenvironment due to the potential toxicity and carcinogenicity. In this study, the novel ultrasonic/persulfate/chlorite (US/S 2 O 8 2 ？/ClO2？) oxidation process was developed for the effective removal of tpm CV in wastewater. The apparent non-integer kinetics ( n around 1.20) of tpm CV degradation under different factors ( R 2 Adj > 0.990) were investigated, respectively. Inhibiting effects of anions were greater than those of cations (except Fe(II/III)). The addingof micromolecule organic acids could regulate degradation towards positive direction. Thedouble response surface methodology (RSM) was designed to optimize tpm CV removal pro-cess, and the acoustic-piezoelectric interaction was simulated to determine the propagationprocess of acoustic wave in the reactor. The possible degradation pathway was explored tomainly include carbonylation, carboxylation, and demethylation. The estimated effective-mean temperature at the bubble-water interface was calculated from 721 to 566 K afterintroducing the ClO2？, however, the adsorption or partitioning capacity of tpm CV in the reac-tive zone was widened from 0.0218 to 0.0982. The proposed co-catalysis of US/S 2 O 8 2 ？/ClO 2？was based on the determined active species mainly including ClO 2 , SO 4 ？, and OH. Comparedwith other US-based processes, the operating cost (3.97 $/m 3 ) of US/S 2 O 8 2 ？/ClO 2？ withthe EE/O value (16.8 kWh/m 3 ) was relatively reduced. 论文标题 Magnetically separable Fe-base deposited on different carbon sources for ultrasound/persulfate-like heterogeneous activation: Optimized synthesis and field driving process 作者 Qihui Xu, Zhipeng Li, Hong You*, Shutao Wang*, Haoyang Li 发表时间 Mar. 7, 2022 期刊名称 Chemosphere 期卷 298 (2022) 134270 简单介绍 论文标题 Design-simulation of light radiation of a novel fixed-bed photocatalytic system with LED arrays on the engineering-outlook 作者 Zhao Lina, You Hong, Wang Shutao* 发表时间 Aug. 1, 2022 期刊名称 Journal of Photochemistry and Photobiology A: Chemistry 期卷 429(2022) 113889 简单介绍 A novel radiation model was established for guiding the development of photochemical reactors to promote the simulation technology onto the fields of photochemical engineering. As the mainstreaming software, the comsol@5.5 with (User Define Function) UDF, described the physical phenomenon on the light distribution in the water with titanium dioxide nanotubes/Ti (TNTs/Ti) mesh layers. During the process, the light-emitting diode (LED) arrays radiation model on the external interface on the reactor constructed by CAD, was solved by means of UDF compiled. Afterwards, the results calculated in the comsol@5.5, acted the boundary conditions as bilateral incidents illumination of the reactor. Eventually, the research obtained the distribution results by solving the radiative transfer equation (RTE), presenting the numerical simulation computing results. 论文标题 Influence of zinc oxide nanoparticles on anaerobic digestion of waste activated sludge and microbial communities 作者 WANG Shutao*, Chen Lingbo, Yang Hao, Liu Zhisheng 发表时间 Nov., 2021 期刊名称 RSC Advances 期卷 11, 5580-5589. 简单介绍 The influence of long-term exposure of zinc oxide nanoparticles (ZnO NPs) to waste activated sludge onanaerobic digestion and microbial communities was studied. The exposure concentrations were 0, 30,60, 90, 120, and 150 mg g-1 -volatile suspended solids (VSS) (dry). ZnO NPs inhibit the degradation ofmacromolecular organic matter and the reduction of VSS in waste activated sludge during anaerobicdigestion. Only slight effects on the activities of protease, cellulase, acetated kinase, and coenzyme F420were found at ZnO-NP concentrations of less than 30 mg gu00011 -VSS, whereas the activities of these threeenzymes were adversely affected in a dose-dependent manner when the ZnO NP concentrations wereincreased from 30 mg gu00011 -VSS to 150 mg gu00011-VSS. High-throughput sequencing analysis revealed thatZnO NPs had an adverse influence on the archaeal community diversity but increased the bacterialcommunity diversity to some extent. High-throughput sequencing analysis also revealed that ZnO NPsresulted in different shift trends in the archaeal and bacteria community structure at phylum, class, andgenus levels. ZnO NPs have negative impacts on the Euryarchaeota community, which plays a significantrole as methanogens in the anaerobic digestion. In addition, ZnO NPs could increase the relativeabundance of Clostridia and Bacteroidia, playing an important role in hydrolysis during the anaerobicdigestion. 论文标题 Ultrasonic role to activate persulfate/chlorite with foamed zero-valent-iron: Sonochemical applications and induced mechanisms 作者 Qihui Xu, Hong Zhang, Haoran Leng, Hong You*, Yuhong Jia, Shutao Wang 发表时间 Avalable online in Sep. 10, 2021 期刊名称 Ultrasonics Sonochemistry 期卷 78 (2021) 105750 简单介绍 The novel system, consisting of composite oxidants (persulfate/chlorite, S2O82？？ /ClO2？？ ) and stationary phaseactivator (zero-valent-iron foam, Fe0f) driven by ultrasonic (US) field, was applied to treat the triphenylmethanederivative effectively even at low temperature (≈ 289 K). By comparisons of sub-systems, the US roles to S2O82？？ ,ClO2？？ , and Fe0f were seriatim analyzed. US made the reaction order of multi-component system tend to within 1(leading to de-order reaction), and widened pH activating range of the Fe0f by sonicate-polishing during theprocess of ClO2？？ co-activating S2O82？？ . US and Fe0f were affected by fluid eddy on activating S2O82？？ /ClO2？？ . TheFe0f had slight effect on the temperature of US bubble-water interface but the addition of ClO2？？ lowered it. Thepartitioning capacity of the above US reactive zone increased during the reaction. US and ClO2？？ could enrich thekinds of degradation intermediates. The contributions of free radicals (ClOx-based radicals, sulfate radicals(SO4？？？ ), and hydroxyl radicals (？OH)) and non-free radicals (ClO2, and O = FeIV/V from ionic Fe under “-O-O-” ofS2O82？？ and cyclic adjustment reaction of ClO2？？ ) processes by sonochemical induction were equally important bycorresponding detection means. Especially, real-time and online high-resolution mass spectrum by selfdevelopingfurther confirmed the chain transfers of different free radicals due to US role. The findingsexpanded the application of sono-persulfate-based systems and improved understanding on activationmechanism. 论文标题 Integrated remediation for organic-contaminated site by forcing running-water to modify alkali-heat/persulfate via oxidation process transfer 作者 Qihui Xu, Feng Shi, Hong You*, Shutao Wang* 发表时间 Jan., 2021 期刊名称 Chemosphere 262 (2021) 128352 期卷 Chemosphere 262 (2021) 128352 简单介绍 As organic pollution of soil and groundwater increases, the effective and economical remediation ofcontaminated sites has drawn growing attention. In this study, running-water (RW) was designed tomodify alkali-heat/persulfate (MAH/PS) for integrated remediation of an actual organic-contaminatedsite. The degradation efficiency mainly reached 60%e99% for Benz[a]anthracene, Benzo[a]pyrene andtotal petroleum hydrocarbons (TPHs). MAH/PS was more effective in degrading Benzene and 1,2-Dichloroethane with simple molecular configurations. The pollutant degradation efficiencies decreasedwith increasing site depth and increased with increasing pollutant concentrations. Migration with RWenhanced site remediation. By monitoring the groundwater after remediation, it was found that residualTPHs presented anomalous diffusion; SO4 2 ranged from 8.00 to 237.00 mg L1 to 8.00e290.00 mg L1and pH presented alkalescence (7.00e8.20). Mathematical models were established to describe the reactionprocess including the solubility equilibrium of calcium hydroxide, temperature equilibrium, andreaction kinetics. Moreover, MAH/PS provided a cost-saving approach for site remediation. 论文标题 ＭｎＯ２／Ａｌ２Ｏ３ 催化剂-微气泡臭氧体系催化降解喹啉及其机理 作者 王树涛*, 王莹, 孟富臣, 李宛伦, 尤宏 发表时间 2020.10.01 期刊名称 环境科学学报 期卷 40（10）： 3651-3657 简单介绍 制备了纳米 MnO2，并以 Al2O3为载体制备了掺杂型 MnO2/ Al2O3颗粒催化剂．催化剂焙烧温度和时间分别为 500 ℃ 和 4 h、MnO2质量分数为 8%时，催化剂具有最高的臭氧催化氧化活性．SEM 分析表明，纳米 Mn O2均匀分布于 Al2O3载体表面．Mn O2/ Al2O3催化剂的比表面积( BET)为 183．22 m2·g－1，平均孔容为 0．27 cm3·g－1，平均孔径为 4．87 nm．建立了 Mn O2/ Al2O3催化剂-微气泡臭氧催化反应体系，研究了该体系对喹啉的降解去除效果及其机理．臭氧微气泡的平均粒径为 61．7 μm．微气泡臭氧投量为 30 mg·L－1时，反应 60 min 后喹啉去除率能达到 95%以上; 反应20 min 后，MnO2/ Al2O3催化剂-微气泡臭氧体系对实际煤化工废水二级出水的 TOC 去除率可达到 55%以上．以叔丁醇作为分子探针，证明了羟基自由基( ·OH) 氧化作用在臭氧微气泡催化氧化体系中对喹啉的降解起到主导作用． 论文标题 New Understanding of novel brominated flame retardants (NBFRs): neuro(endocrine) toxicity 作者 Liying Dong, Shutao Wang*, Jinze Qu, Hong You, Dongmei Liu* 发表时间 2020.10 期刊名称 Ecotoxicology and Environmental Safety 期卷 accepted in Oct.,2020 简单介绍 论文标题 Integrated remediation for organic-contaminated site by forcing running-water to modify alkali-heat/persulfate via oxidation process transfer 作者 Xu Qihui, You Hong*, Feng Shi, Wang Shutao* 发表时间 2020.10.01 期刊名称 Chemosphere 期卷 简单介绍 论文标题 Characterization of a Doped MnO 2 Al 2 O 3 Catalyst and its Application Inmicrobubble Ozonation for Quinoline Degradation 作者 Xinwang Liu , Shutao Wang* , Hao Yang , Zhisheng Liu , Ying Wang , Fucheng Meng , Jun Ma & Oksana S. Izosimova 发表时间 2020.05 期刊名称 Ozone: Science & Engineering 期卷 简单介绍 论文标题 Impact of salinity on anaerobic microbial community structure in high organic loading purified terephthalic acid wastewater treatment system 作者 Xiao-chen Ma, Xiang-kun Li*, Xue-wei Wang, Gai-ge Liu, Jin-long Zuo, Shu-tao Wang*, Ke Wang* 发表时间 2020.01 期刊名称 Journal of Hazardous Materials 期卷 383: 121132 简单介绍 论文标题 Photocatalytic performance and application outlook of 3D TiO2/titanium mesh modified by GO-Ag joined-deposition 作者 Li na Zhao, Yu Hong Jia, Hong You*, Shu tao Wang, Liang Fu 发表时间 2020.01 期刊名称 Catalysis Today 期卷 340: 106–114 简单介绍 论文标题 Impacts of bio-carriers on the characteristics of soluble microbial products in a hybrid membrane bioreactor for treating mariculture wastewater 作者 Jing Zhu, Hong You, Zhipeng Li*, Yi Ding, Feng Liu, Chunpeng Zhang, Shutao Wang, Yuhan Gu, Fanyu Chen, Binyu Ma 发表时间 2020.06 期刊名称 Science of the Total Environment 期卷 737: 140287 简单介绍 论文标题 ZnO纳米颗粒对SBR活性污泥活性的影响 作者 王树涛*，李素萍，王未青，尤宏 发表时间 期刊名称 中国环境科学 期卷 2014, 34 (10)：2575-2580 简单介绍 论文标题 The long-term impact of cefalexin on organic substrate degradation and microbial community structure in EGSB system 作者 L.W. Meng, X.K. Li, S.T. Wang*, L.L. Liu 发表时间 2017.01 期刊名称 Chemosphere 期卷 184: 215-223 简单介绍 论文标题 The presence of MWCNTs reduces developmental toxicity of PFOS in early life stage of zebrafish 作者 Shutao Wang*, Changlu Zhuang, Jia Du, Chuan Wu, Hong You 发表时间 2017.12 期刊名称 Environmental Pollution 期卷 222:201-209. 简单介绍 论文标题 短程硝化反应中污染物降解动力学及微生物群落研究 作者 夏俊方，王树涛，张永明，胡君杰，方小琴 发表时间 期刊名称 哈尔滨工业大学学报 期卷 卷: 50 页: 65-71 简单介绍 论文标题 Oxidative stress and apotosis to zebrafish (danio rerio) embryos exposed to perfluorooctane sulfonate (PFOS) and ZnO nanoparticles 作者 Jia Du, Jun Cai, Shutao Wang, And Hong You 发表时间 期刊名称 International J. of Occupational Medicine and Environmental Health 期卷 2017, 30 (2): 213-229 简单介绍 论文标题 The impact of zinc oxide nanoparticles on nitrification and the bacterial community in activated sludge in an SBR 作者 S.T. Wang*, S.P. Li, W.Q. Wang and H. You 发表时间 期刊名称 RSC Adv 期卷 67335-67342 简单介绍 论文标题 Effects of ZnO nanoparticles on perfluorooctane sulfonate induced thyroid-disrupting on zebrafish larvae 作者 Jia Du, Shutao Wang*, Hong You**, Zhongqiang Liu 发表时间 期刊名称 J. Environmental Sciences 期卷 47: 153-164. 简单介绍 论文标题 Developmental toxicity and DNA damage to zebrafish induced by perfluorooctanesulfonate (PFOS) in the joint presence of ZnO nanoparticles 作者 Jia Du, Shutao Wang*, Hong You**, Rui Jiang, Changlu Zhuang, Xiaohui Zhang 发表时间 期刊名称 J. Environmental Toxicity. 期卷 31 (3): 360-371 简单介绍 论文标题 Acute ZnO nanoparticles exposure induces developmental toxicity, oxidative stress and DNA damage in embryo-larval zebrafish 作者 Xuesong Zhao, Shutao Wang, Yuan Wu, Hong You, Lina Lva 发表时间 期刊名称 Aquatic Toxicology 期卷 36-137(15): 49-59 简单介绍 论文标题 Photocatalytic reduction of perchlorate in aqueous solutions in UV/Cu–TiO2/SiO2 system. 作者 Long Ye, Shutao Wang, Hong You, Jie Yao, Xi Kang 发表时间 期刊名称 Chemical Engineering Journal 期卷 226: 434–443 简单介绍 论文标题 In-depth Characterization of Secondary Effluent from a Municipal Wastewater Treatment 作者 Shutao Wang*, Xingwen Zhang, Zhiwu Wang, Xingkun Li, Jun Ma. 发表时间 期刊名称 Water Science and Technology 期卷 2014, 69 (7): 1482-1488 (SCI, IF 1.122) 简单介绍 论文标题 Effects of perchlorate on BDE-47-induced alteration thyroid hormone and gene expression 作者 Xuesong Zhao, Shutao Wang？, Dongmei Li, Hong You, XinRen 发表时间 期刊名称 Environmental Toxicology and Pharmacology 期卷 2013, 36: 1176-1185 (SCI, IF 2.005) 简单介绍 论文标题 Understanding the toxicity of carbon nanotubes in the environment is crucial to the control of nanomaterials 作者 Jia Du, Shutao Wang？, Hong You, Xuesong Zhao. 发表时间 期刊名称 A review. Environmental Toxicology and Pharmacology. 期卷 2013, 36: 451-462 (SCI, IF 2.005) 简单介绍 论文标题 氧化锌纳米颗粒对污泥厌氧消化过程的影响研究 作者 王树涛*, 陈玲波, 张真瑞, 巫川, 姜瑞, 尤宏 发表时间 期刊名称 中国环境科学 期卷 2017, 37 (1): 174-180. 简单介绍 论文标题 湿式催化过氧化氢氧化降解喹啉及其机理 作者 邹寒，王树涛，尤宏 发表时间 期刊名称 化工学报 期卷 2014, 65 (11): 4400-4405 简单介绍 论文标题 BDE-47和BDE-209对乙酰胆碱酯酶（AChE）活性的抑制特性及分子作用力研究. 作者 巫川，王树涛*，朱婧, 尤宏 发表时间 期刊名称 生态毒理学报 期卷 2017年6月刊 简单介绍 论文标题 全氟辛烷磺酸( PFOS)和多壁碳纳米管( MWCNTs)复合对斑马鱼外周血红细胞 DNA 的损伤 作者 庄昌露, 王树涛*，杜佳，王未青，柳羽丰，尤宏，苏荣军. 发表时间 期刊名称 生态毒理学报 期卷 2015, 10 (3): 192-199 简单介绍 论文标题 全氟辛烷磺酸钾(PFOS)和纳米氧化锌( Nano-ZnO)单独与联合暴露对斑马鱼胚胎的氧化损伤和细胞凋亡的影响 作者 杜佳, 王树涛*, 刘征, 尤宏. 发表时间 期刊名称 生态毒理学报 期卷 2015, 10 (3): 238-247 简单介绍 论文标题 菲的短期暴露对成年斑马鱼及其胚胎的毒性效应 作者 赵雪松，王树涛，尤宏 发表时间 期刊名称 哈尔滨工业大学学报 期卷 2012, 44 (3): 268-273 简单介绍 论文标题 松花江干流底泥中PCBs的分布特征及其生态风险 作者 王树涛*，丁晶，尤宏，李一凡. 发表时间 期刊名称 哈尔滨工业大学学报 期卷 2010, 42 (6): 986-989. 简单介绍 论文标题 全氟辛烷基磺酸钾( PFOS)和纳米氧化锌(Nano-ZnO)复合暴露对斑马鱼下丘脑-垂体-甲状腺轴功能的影响 作者 杜佳, 王树涛, 尤宏 发表时间 期刊名称 生态毒理学报 期卷 2015, 10 （6）： 144-153 简单介绍 论文标题 掺杂型纳米 MnO2/ Al2O3催化剂的制备及催化臭氧化处理驱油污水二级出水 作者 潘璐阳, 王树涛*, 张兰河, 尤宏 发表时间 期刊名称 硅酸盐学报 期卷 2015, 34 (8): 2260-2266 简单介绍 论文标题 臭氧催化氧化深度处理驱油污水性能研究 作者 陈子成,王树涛,周靖,李怡然,柳羽丰, 张兰河 发表时间 期刊名称 硅酸盐学报 期卷 015, 34 (11):3277-2282 简单介绍 论文标题 无泡供氧固定床反应器催化氧化水中乙醇的研究. 作者 尤宏*, 王树涛*, 金大瑞. 发表时间 期刊名称 航天医学与医学工程 期卷 2014, 27: 349-352. 简单介绍 论文标题 几种纳米材料对斑马鱼孵化和致畸效应的影响 作者 吕丽娜，赵雪松，尤宏，王树涛 发表时间 期刊名称 哈尔滨工业大学学报 期卷 2012, 45 (12): 48-52 简单介绍 论文标题 PFOS and ZnO Nanoparticles Induced Oxidative Stress in Liver, Gill and Head of Zebrafish 作者 Liu Zheng, Du Jia, Wang Shutao, You Hong 发表时间 期刊名称 Science Discovery 期卷 2016; 4(4): 232-237 简单介绍 论文标题 Joint acute toxicity of Phenanthrene and Sodium Perchlorate to Zebrafish 作者 Xuesong Zhao, Shutao Wang, Hong You. 发表时间 期刊名称 International Conference on Environmental Pollution and Public Health, a special track within ICBBE 期卷 简单介绍 论文标题 高氯酸钠对斑马鱼胚胎的毒性效应 作者 谭敏卿, 赵雪松, 尤宏, 王树涛 发表时间 期刊名称 环境科学与管理 期卷 2011 36(9): 1-4 简单介绍 专利 出版物 出版物名称 《环境工程设备与应用》（第二版） 作者 马放 田禹 王树涛（主编）刘志生 王琨（副主编） 出版时间 2021年12月 出版社 高等教育出版社 简单介绍 本书从环境工程设备的材料入手，系统阐述了各类型环境工程设备的原理、设计及其应用，介绍了国内外知名品牌环境工程设备的性能、参数。本书分为四篇、12章。第一篇（第1、2章）为环境工程设备基础，第1章重点介绍了环境工程设备的概念、分类以及环境工程设备选用与设计的基本原则；第2章介绍了常用环境工程设备材料的性能、防腐及材料的选用原则。第二篇（第3~7章）为污水处理设备，系统阐述了流体输送机械及设备、物理法污水处理设备、化学法污水处理设备、生物法污水处理设备和污泥处理设备。第三篇（第8、9章）为大气污染控制设备，包括除尘设备原理与应用、气态污染物控制设备原理与应用。第四篇（第10~12章）为固体废物污染控制设备，包括固体废物预处理设备、固体废物焚烧处理设备和固体废物卫生填埋设备。本书本书由哈尔滨工业大学马放、田禹、王树涛担任主编，长春市城乡规划设计研究院刘志生、哈尔滨工业大学王琨担任副主编。参加编写的人员和分工如下：马放、田禹（第一章），王树涛（第二、三、四章），刘志生（第五章），马放、邱珊（第六章），田禹（第七章），哈尔滨商业大学黄丽坤（第八章），王琨（第九章），田禹（第十章），王树涛（第十一章），中交煤气热力研究设计院李红岩（第十二章）。全书由马放、田禹、王树涛统稿、定稿，由同济大学周琪教授审稿。本书在编写过程中，得到了“城市水资源与水环境国家重点实验室”资助，编者参阅并引用了国内外的有关文献资料，高等教育出版社环境学科编辑们给予了大力协助，在此一并表示诚挚的感谢。 出版物名称 《水污染控制工程》 作者 田禹 王树涛 （主编）孙兴滨 孟宪林 （副主编） 出版时间 2011年2月 出版社 化学工业出版社 简单介绍