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OpenAlex Citation Counts

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OpenAlex is a bibliographic catalogue of scientific papers, authors and institutions accessible in open access mode, named after the Library of Alexandria. It's citation coverage is excellent and I hope you will find utility in this listing of citing articles!

If you click the article title, you'll navigate to the article, as listed in CrossRef. If you click the Open Access links, you'll navigate to the "best Open Access location". Clicking the citation count will open this listing for that article. Lastly at the bottom of the page, you'll find basic pagination options.

Requested Article:

A comparison of the effects of natural organic matter on sulfidated and nonsulfidated nanoscale zerovalent iron colloidal stability, toxicity, and reactivity to trichloroethylene
Yitong Han, Subhasis Ghoshal, Gregory V. Lowry, et al.
The Science of The Total Environment (2019) Vol. 671, pp. 254-261
Closed Access | Times Cited: 69

Showing 1-25 of 69 citing articles:

Reactivity, Selectivity, and Long-Term Performance of Sulfidized Nanoscale Zerovalent Iron with Different Properties
Jiang Xu, Yan Wang, Cindy Weng, et al.
Environmental Science & Technology (2019) Vol. 53, Iss. 10, pp. 5936-5945
Closed Access | Times Cited: 255
Engineered nanomaterials and their surface functionalization for the removal of heavy metals: A review
Aquib Jawed, Varun Saxena, Lalit M. Pandey
Journal of Water Process Engineering (2019) Vol. 33, pp. 101009-101009
Closed Access | Times Cited: 252
Recent Advances in Sulfidated Zerovalent Iron for Contaminant Transformation
Ariel Nunez Garcia, Yanyan Zhang, Subhasis Ghoshal, et al.
Environmental Science & Technology (2021) Vol. 55, Iss. 13, pp. 8464-8483
Open Access | Times Cited: 184
Recent advances in nanoscale zero-valent iron-based materials: Characteristics, environmental remediation and challenges
Hao Tang, Jiaqi Wang, Shu Zhang, et al.
Journal of Cleaner Production (2021) Vol. 319, pp. 128641-128641
Closed Access | Times Cited: 182
Iron and Sulfur Precursors Affect Crystalline Structure, Speciation, and Reactivity of Sulfidized Nanoscale Zerovalent Iron
Jiang Xu, Astrid Avellan, Hao Li, et al.
Environmental Science & Technology (2020) Vol. 54, Iss. 20, pp. 13294-13303
Closed Access | Times Cited: 180
Quantifying the efficiency and selectivity of organohalide dechlorination by zerovalent iron
Feng He, Li Gong, Dimin Fan, et al.
Environmental Science Processes & Impacts (2020) Vol. 22, Iss. 3, pp. 528-542
Open Access | Times Cited: 80
Remediation of soil contaminated with organic compounds by nanoscale zero-valent iron: A review
Yaru Li, He‐Ping Zhao, Lizhong Zhu
The Science of The Total Environment (2020) Vol. 760, pp. 143413-143413
Closed Access | Times Cited: 79
CaCO3 coated nanoscale zero-valent iron (nZVI) for the removal of chromium(VI) in aqueous solution
Yujun Cheng, Haoran Dong, Tianwei Hao
Separation and Purification Technology (2020) Vol. 257, pp. 117967-117967
Closed Access | Times Cited: 79
A critical review on the biological impact of natural organic matter on nanomaterials in the aquatic environment
Xiangrui Wang, Dingyuan Liang, Ying Wang, et al.
Carbon Research (2022) Vol. 1, Iss. 1
Open Access | Times Cited: 53
A comparative study on the physicochemical properties, reactivity and long-term performance of sulfidized nanoscale zerovalent iron synthesized with different kinds of sulfur precursors and procedures in simulated groundwater
Shuangjie Xiao, Zilan Jin, Haoran Dong, et al.
Water Research (2022) Vol. 212, pp. 118097-118097
Closed Access | Times Cited: 50
Insights of mechanism into enhanced removal of Cr(VI) by Ginkgo biloba leaves synthesized bimetallic nano-zero-valent iron/copper
Huijie Lu, Fang Zhu, Huishen Xu, et al.
Colloids and Surfaces A Physicochemical and Engineering Aspects (2023) Vol. 675, pp. 132094-132094
Closed Access | Times Cited: 23
Influence of natural organic matter on nanoscale zero-valent iron for contaminants removal in water: A critical review
Zhaoli Liu, Jiahui Fu, Airong Liu, et al.
Chemical Engineering Journal (2024) Vol. 488, pp. 150836-150836
Closed Access | Times Cited: 12
Biotechnology and nanotechnology for remediation of chlorinated volatile organic compounds: current perspectives
Parisa Ebrahimbabaie, John Pichtel
Environmental Science and Pollution Research (2021) Vol. 28, Iss. 7, pp. 7710-7741
Closed Access | Times Cited: 47
Reductive dechlorination of chlorinated ethenes by ball milled and mechanochemically sulfidated microscale zero valent iron: A comparative study
Shuyan Wu, Shichao Cai, Fengyang Qin, et al.
Journal of Hazardous Materials (2023) Vol. 446, pp. 130730-130730
Closed Access | Times Cited: 20
Sulfidation of zero-valent iron for enhanced reduction of chlorinated contaminants: A review on the reactivity, selectivity, and interference resistance
Jiaming Guo, Feilong Gao, Chengfang Zhang, et al.
Chemical Engineering Journal (2023) Vol. 477, pp. 147049-147049
Closed Access | Times Cited: 17
Electron competition and electron selectivity in abiotic, biotic, and coupled systems for dechlorinating chlorinated aliphatic hydrocarbons in groundwater: A review
Xiaohui Wang, Jia Xin, Mengjiao Yuan, et al.
Water Research (2020) Vol. 183, pp. 116060-116060
Closed Access | Times Cited: 49
A new insight into the main mechanism of 2,4-dichlorophenol dechlorination by Fe/Ni nanoparticles
Xia Ruan, Hong Liu, Junwen Wang, et al.
The Science of The Total Environment (2019) Vol. 697, pp. 133996-133996
Closed Access | Times Cited: 46
Properties and reactivity of sulfidized nanoscale zero-valent iron prepared with different borohydride amounts
Zhen Cao, Hao Li, Shuangyu Zhang, et al.
Environmental Science Nano (2021) Vol. 8, Iss. 9, pp. 2607-2617
Closed Access | Times Cited: 35
Nanocolloids, but Not Humic Acids, Augment the Phytotoxicity of Single-Layer Molybdenum Disulfide Nanosheets
Hui Zeng, Xiangang Hu, Shaohu Ouyang, et al.
Environmental Science & Technology (2021) Vol. 55, Iss. 2, pp. 1122-1133
Closed Access | Times Cited: 33
Nanoscale zero-valent iron application for the treatment of soil, wastewater and groundwater contaminated with heavy metals: a review
Motasem Y.D. Alazaiza, Ahmed Albahnasawi, Nadım K. Copty, et al.
Desalination and Water Treatment (2022) Vol. 253, pp. 194-210
Closed Access | Times Cited: 26
Remediation of groundwater pollution by in situ reactive zone: A review
Bing Wang, Chunyang Gao, Xingchun Li, et al.
Process Safety and Environmental Protection (2022) Vol. 168, pp. 858-871
Closed Access | Times Cited: 23
Effects of common groundwater ions on the transformation and reactivity of sulfidized nanoscale zerovalent iron
Marco C. Mangayayam, Virginia Alonso-de-Linaje, Knud Dideriksen, et al.
Chemosphere (2020) Vol. 249, pp. 126137-126137
Open Access | Times Cited: 39
Sulfidation enhances stability and mobility of carboxymethyl cellulose stabilized nanoscale zero-valent iron in saturated porous media
Li Gong, Shasha Shi, Neng Lv, et al.
The Science of The Total Environment (2020) Vol. 718, pp. 137427-137427
Open Access | Times Cited: 39
Environmental fate of sulfidated nZVI particles: the interplay of nanoparticle corrosion and toxicity during aging
Jaroslav Semerád, Jan Filip, Alena Ševců, et al.
Environmental Science Nano (2020) Vol. 7, Iss. 6, pp. 1794-1806
Closed Access | Times Cited: 39
Superior trichloroethylene removal from water by sulfide-modified nanoscale zero-valent iron/graphene aerogel composite
Qiong Bin, Bin Lin, Ke Zhu, et al.
Journal of Environmental Sciences (2019) Vol. 88, pp. 90-102
Closed Access | Times Cited: 38
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