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Journal of Hazardous Materials
基本信息
期刊名称 Journal of Hazardous Materials
J HAZARD MATER
期刊ISSN 0304-3894
期刊官方网站 https://www.sciencedirect.com/journal/journal-of-hazardous-materials
是否OA No
出版商 Elsevier B.V.
出版周期 Semimonthly
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始发年份 1975
年文章数 2490
影响因子 12.2(2023)  scijournal影响因子  greensci影响因子
中科院SCI期刊分区
大类学科 小类学科 Top 综述
环境科学与生态学1区 ENGINEERING, ENVIRONMENTAL 工程:环境2区
ENVIRONMENTAL SCIENCES 环境科学1区
CiteScore
CiteScore排名 CiteScore SJR SNIP
学科 排名 百分位 25.4 2.950 2.075
Environmental Science
Environmental Engineering
2/197 99%
Environmental Science
Waste Management and Disposal
2/134 98%
Environmental Science
Pollution
4/167 97%
Environmental Science
Health, Toxicology and Mutagenesis
4/148 97%
Environmental Science
Environmental Chemistry
4/147 97%
补充信息
自引率 6.6%
H-index 235
SCI收录状况 Science Citation Index Expanded
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PubMed Central (PMC) http://www.ncbi.nlm.nih.gov/nlmcatalog?term=0304-3894%5BISSN%5D
投稿指南
期刊投稿网址 https://www.editorialmanager.com/HAZMAT
收稿范围
The Journal of Hazardous Materials is an international forum that advances world class research by publishing articles in the areas of Environmental Science and Engineering. We publish full-length research papers, review articles, and perspectives that improve our understanding of the hazards and risks that certain materials pose to public health and the environment. Authors are supposed to address two questions in their manuscripts: 1) is the studied subject an environmental contaminant? and 2) is the study conducted under an environmentally relevant condition?

"Environmental contaminants" exclude the compounds that do not exert hazardous effects on the environment or humans via contamination. Of note, difference between wastes and hazardous materials needs to be spotlighted to further clarify the JHM scope. The journal is highly interested in specific compounds or microbial agents with environmentally hazardous effects.

"Environmentally relevant conditions" typically require an experiment or modeling study to be conducted with the consideration of environmental factors, such as temperature, pH, environmental matrix constituents, and chemical doses for waste removal, within their respective realistic occurrence ranges. Particularly, we have noticed that studies on nanomaterials or emerging contaminants (e.g., sensing/detection, effects, and removal) in many manuscripts were performed with unrealistically high concentrations, which can be several orders of magnitude higher than their real occurrence ranges in an environmental medium.

Environmental implications from such studies would be very limited. Although higher concentrations may exhibit a full spectrum of hazardous effects, a manuscript ought to embrace realistic level(s) of a hazardous material in the range of the studied concentrations.

Examples of the topics that are outside the journal's scope can be found in this editorial: Refining the scope of Journal of Hazardous Materials
收录体裁
Full-length research papers 
Review Article
Letter to the Editor
投稿指南 https://www.sciencedirect.com/journal/journal-of-hazardous-materials/publish/guide-for-authors
投稿模板
参考文献格式 https://www.elsevier.com/journals/journal-of-hazardous-materials/0304-3894/guide-for-authors
编辑信息
Editors
Diana Aga
University at Buffalo - The State University of New York, Buffalo, New York, United States Environmental Analysis, Emerging Contaminants, Persistent Organic Pollutants, Wastewater Treatment, Biodegradation, Antibiotic Resistance, Mass Spectrometry, Ecotoxicity
Queen's University Department of Chemistry, Kingston, Ontario, Canada  Environmental Biotechnology, Bioresource Engineering, Cell Culture Engineering, and Industrial Bioprocesssing
Virginia Polytechnic Institute and State University, Blacksburg, Virginia, United States Water pollution and treatment; Environmental biotechnology; Resource recovery from wastes; Bioelectrochemical systems; Bioenergy; Membrane technology; Bioremediation; Desalination
Federal University of Rio Grande do Sul Chemistry Institute, Brazil  Emerging contaminants, adsorption, biosorption, preparation of adsorbents, green chemistry, Advanced Oxidative Process, Nanomaterials, Heavy metals, Soil, Environmental Chemistry, catalysis, photocatalysis
National Technical University of Athens, Athens, Greece Bioprocesses, Environmental Engineering, Biodegradation, Water And Wastewater Treatment, Solid Waste Management, Industrial Waste Management, Combined Chemical And Biological Treatment, Energy From Biomass, Life Cycle Analysis
Korea University Division of Environmental Science and Ecological Engineering, Seoul, Korea, Republic of  Biochar, Resilience, Soil remediation, Biomass, Bioenergy
Special Issues Editor
University of Wuppertal, Wuppertal, Germany Soils, sediments, waters, plants, and their pollutions (in particular trace elements and nutrients) and linked biogeochemical issues with a special focus in redox chemistry; Remediation of soils and soil microbiology.
Associate Editors

Xiaohong Guan

Tongji University School of Environmental Science and Engineering, Shanghai, China Advanced oxidation processes; Permanganate oxidation; Ferrate oxidation; Disinfection by-products; Zerovalent iron; Drinking water treatment; Heavy metals; Emerging organic contaminants; Adsorption; Catalysis

Deyi Hou

Tsinghua University, Beijing, China  Sustainability assessment; Life cycle assessment; Environmental footprint analysis; Risk management; Contaminated soil and groundwater remediation; Heavy metal contamination; Biochar production and application; Green synthesis of environmental functional materials; Fate and transport of volatile organic compounds in porous media
University of Aveiro, Aveiro, Portugal  Micro(nano)plastic, Plastic, Microfibres, Organic contaminants, Marine monitoring, Environmental monitoring, Wastewater treatment, Biodegradation of microplastics, Sensors, Biosensors

Debora Rodrigues

University of Houston System at Sugar Land, Houston, Texas, United States  Nanotechnology, Nanotoxicology, Bioremediation, Microbial ecology, Biotoxicity, Heavy metal pollution, Biotechnology, Water and wastewater treatment, Biosorption, Photocatalysis
Catalan Institute of Investigation of Water, Girona, Spain Environmental chemistry and analysis related to organic micropollutantsAnalysis of organic emerging pollutants in wastewater, surface, marine and groundwater, sediments and biotaEndocrine disruptors, cancer drugs, Pharmaceuticals, including antibioticsTransformation productsBioaccumulation of micropollutants in aquatic organismsBiomonitoringMetabolomicsWastewater EpidemiologyEnvironmental impactHuman Health impact

Navid B. Saleh

University of Texas at Austin, Austin, Texas, United States Nanomaterials; Water pollution and treatment; Emerging contaminants; Appropriate treatment technologies for low-income communities; contaminant fate and transport.
The George Washington University, Department of Civil and Environmental Engineering, Washington, Washington, United States  Catalysis, Nanotechnology, Membrane separation, Nanomaterial-biological interactions
The Hong Kong Polytechnic University Department of Civil and Environmental Engineering, Hong Kong, Hong Kong  Green chemistry/engineering; Soil/sediment remediation; Engineered biochar; Waste valorization; Resource recovery; Wastewater/stormwater treatment; Catalytic conversion/degradation; Pollutant transport; Environmental pollution | Sustainable urban development, urban wastes, contaminated land and water, waste management (food, wood, plastic agro, sludge), green remediation, wastewater treatment.
Editorial Board
Fudan University Department of Environmental Science and Engineering, Shanghai, China

Roberto Andreozzi

University of Naples Federico II, Napoli, Italy

Antonio Ballester

Complutense University of Madrid, Madrid, Spain

Shannon Leigh Bartelt-Hunt

University of Nebraska-Lincoln Department of Civil Engineering, Omaha, Nebraska, United States
University of Barcelona, Barcelona, Spain Non-dl-POPs, FRs, levels, trends, analytical methods, food chain accumulation, interlab studies, biomonitoring, fate, exposure, fish, shellfish toxins

Hefa Cheng

Peking University, Beijing, China Environmental geochemistry; Heavy metals; Environmental monitoring; Health risk assessment; Food safety; Soil pollution; Waste management; Environmental transport and fate of pollutants; Waste treatment and disposal

Valerio Cozzani

University of Bologna, Bologna, Italy
Montclair State University Department of Earth and Environmental Studies, Montclair, New Jersey, United States Chemical Oxidation and Reduction; Adsorption; Water Treatment and Reuse; Stormwater Pollution and Control; Industrial Wastewater Treatment and Disposal
University of Cincinnati, Cincinnati, Ohio, United States Advanced oxidation technologies for water treatment, drinking water treatment and purification, water quality, treatment, reuse, and monitoring, sustainable water processes, physicochemical phenomena on particle-water interfaces, transition-metal oxidation and reverse electron transfer reactions, the use of ionic liquids in environmental applications, destruction of biological toxins in water, environmental nanotechnology (fundamental, fate, transport, and applications of nanomaterials), Remediation, Environmental catalysis. Moderate Experience: Some experience also on separations (membranes, adsorption, solvent extraction). Less experience: biological treatment processes, resource recovery, biofuels/bioenergy, microbial fuel cells.

Mehmet Erdem

Firat University, Department of Environmental Engineering, Elazığ, Turkey Water pollution and treatment, Emerging contaminants, Advanced oxidation processes, Heavy metal pollution, Stabilization and solidification of industrial solid wastes, Preparation and characterization of catalysts, biochar and activated carbon
University of Barcelona, Barcelona, Spain Advanced Oxidation Processes, Photocatalysis, Fenton, Ozonation, Wastewater treatment

Zhengping Hao

Research Centre for Eco-Environmental Sciences Chinese Academy of Sciences, Beijing, China
Washington University in St. Louis, Department of Energy, Environmental and Chemical Engineering, St. Louis, Missouri, United States Nanochemistry, Nucleation, CO2 sequestration, desalination, water reuse and resource recovery

Sung-Eun Lee

Kyungpook National University, Daegu, Korea, Republic of

Wen-Jhy Lee

National Cheng Kung University, Tainan, Taiwan

Panagiotis Lianos

University of Patras School of Engineering, Patra, Greece -Photocatalysis for water cleaning: photodegradation of organic pollutants-Photocatalysis for energy applications: production of hydrogen by photodegradation of water pollutants or products of biomass; dye-sensitized solar cells-New materials for adsorption and retention of pollutants from water.

Lena Ma

University of Florida, Gainesville, Florida, United States Biogeochemistry of trace metals in soils, wastes, and plants; Soil contamination and remediation; Phytoremediation; Chemical stabilization; Metal speciation; Metal bioavailability and bioaccessibility; Metal exposure and human health; Plant metal uptake and transport; Microbial transformation of metals; Metal availability and food safety

Raffaele Marotta

University of Naples Federico II Department of Chemistry, Napoli, Italy
Jawaharlal Nehru University School of Environmental Sciences, New Delhi, IndiaEnvironmental/Analytical/Aquatic/Surface Chemistry Remediation and Encapsulation of Priority Pollutants from water Water Quality Monitoring, Modeling and Assessment Biorenewable Resources: Bio-oils Biorefineries Environmentally benign wood preservatives

Catherine Mulligan

Concordia University, Montréal, Quebec, Canada
Maria Curie-Sklodowska University, Lublin, Poland Biochar; organic contaminants; heavy metals; polycyclic aromatic hydrocarbons; nanoparticles; sewage sludge; ecotoxicology; remediation
Tsinghua University, Beijing, China Soil and groundwater pollution; Biochar; Microplastics (MPs); Green and sustainable solutions; Contaminated land remediation

Jong Moon Park

Pohang University of Science and Technology, Pohang, Korea, Republic of
TNO, Delft, Netherlands Dr.Ir. Hans J. Pasman is TEES Research Professor at Mary Kay O’Connor Process Safety Center of the Artie McFerrin Department of Chemical Engineering of Texas A&M University, and he is Emeritus Professor Chemical Risk Management of the Delft University of Technology in the Netherlands. Graduated in chemical technology at Delft University of Technology in 1961, with Ph.D. in 1964 while employed by Shell, he joined the Dutch organisation for Applied Research, TNO, where he did or led many investigations into disastrous industrial accidents, he initiated and led research in reactive materials, explosions of all types, and risk analysis. He was chairman of the International Group on Unstable Substances for 10 years, the European Study Group on Risk Analysis (1980-1985), a NATO Group on Explosives, and the Working Party on Loss Prevention and Safety Promotion in the Process Industries (1986-2004) and in this latter capacity in 1992 co-founder of the European Process Safety Centre. He has been member of the Dutch Council of Hazardous Substances (2004-2012).
Georgia Institute of Technology, Atlanta, Georgia, United States Environmental biotechnology; Bioprocess engineering; Wastewater treatment; Anaerobic digestion; Biotransformation; Bioremediation; Bioenergy and biofuels; Bioelectrochemical systems; Kinetics and modeling

Michael J. Plewa

University of Illinois at Urbana-Champaign, Champaign, Illinois, United States
Dalian University of Technology School of Environmental Science and Technology, Dalian, China Advanced oxidation technologies(AOTs), Functional materials for environmental application, Electrocatalysis, Photocatalysis, Membrane separation
University of Sri Jayewardenepura, Faculty of Applied Sciences, Nugegoda, Sri LankaAdsorption/Sorption, Remediation, Environmental Chemistry, Heavy metals

Susan Richardson

University of South Carolina Department of Chemistry and Biochemistry, Columbia, South Carolina, United States
University of Castilla-La Mancha, Ciudad Real, Spain

Virender K Sharma

Texas A&M University College Station, College Station, Texas, United States

Hocheol Song

Sejong University Department of Energy and Environment, Seoul, Korea, Republic of

Piotr Stepnowski

University of Pardubice, Pardubice, Czech Republic Explosives, Initiation reactivity of EMs, Physical organic chemistry of EMs
Peking University College of Environmental Science and Engineering, Beijing, ChinaWater disinfection, Microplastics, Heavy metal removal, Organic pollutants degradation

Sibel Tunali Akar

Eskisehir Osmangazi University, Eskisehir, Turkey

Shaobin Wang

The University of Adelaide School of Chemical Engineering and Advanced Materials, Adelaide, South Australia, Australia Nanoparticles and nanotechnology; Advanced oxidation processes; Air pollution and control; Wasterwater treatment technology; Solid waste conversion and treatment 

Xiangke Wang

North China Electric Power University, Beijing, China
Nankai University College of Environmental Science and Engineering, Jinnan District, Tianjin, China Microbial electrochemical technology; Electroactive biofilm; Anaerobic digestion; Nitrogen recovery, DNRA
Sun Yat-Sen University School of Environmental Science and Engineering, Guangzhou, China Water treatment, Chemical oxidation, Emerging contaminants
East China Normal University, School of Geographical Sciences; State Key Laboratory of Estuarine and Coastal Research, Shanghai, China Nanoparticles, Behavior, Incidental, POPs, ARGs 
University of Glasgow School of Engineering, Glasgow, United Kingdom Waste management; Waste to Resource; Biochar; Optimisation; Process modelling
State Key Laboratory of Advanced Technology for Materials Synthesis Processing, Wuhan, China Preparation, modification, characterization and application of porous and nano-structured materials; semiconductor photocatalysis for water and air purification; photocatalytic hydrogen production; dye-sensitized solar cells and adsorption
Aristotle University of Thessaloniki, Thessaloniki, Greece Water and wastewater treatment, Industrial Solid Waste Management and Treatment, Circular economy applications, Green Chemistry and Green Chemical Technology


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