Removal of Chloroform by Fe/Ni Nanoparticles Supported on Activated Carbon Fibers-Reference-Cited by-同舟云学术

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Removal of Chloroform by Fe/Ni Nanoparticles Supported on Activated Carbon Fibers

Published:2019-06 Issue:6 Volume:36 Page:681-689
ISSN:1557-9018
Container-title:Environmental Engineering Science
language:en
Short-container-title:Environmental Engineering Science

Author:

Jin Xin¹,Chen Hai¹,Yang Qi¹

Affiliation:

1. Beijing Key Laboratory of Water Resources and Environmental Engineering, China University of Geosciences, Beijing, Beijing, P.R. China.

Publisher

Mary Ann Liebert Inc

Subject

Pollution,Waste Management and Disposal,Environmental Chemistry

Link

https://www.liebertpub.com/doi/pdf/10.1089/ees.2018.0378

Reference51 articles.

1. Synergistic Effect of Cationic Surfactants on Perchloroethylene Degradation by Zero-Valent Iron

2. Activated carbon fibers with redox-active functionalities improves the continuous anaerobic biotransformation of 4-nitrophenol

3. Activated carbon fibers for efficient VOC removal from diluted streams: the role of surface functionalities

4. Iron oxide nanoparticles supported on activated carbon fibers catalyze chemoselective reduction of nitroarenes under mild conditions

5. Montmorillonite-supported nanoscale zero-valent iron for removal of arsenic from aqueous solution: Kinetics and mechanism

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1. Recent advances in bimetallic nanoscale zero-valent iron composite for water decontamination: Synthesis, modification and mechanisms;Journal of Environmental Management;2024-02

2. Reductive Dehalogenation of Iodoform by Fe/Pd Bimetallic Material;Environmental Science and Engineering;2024

3. Efficient and Reversible Separation of Chloroform from Chlorinated Hydrocarbons and Water Utilizing a Two-Dimensional Coordination Network;ACS Applied Materials & Interfaces;2023-07-28

4. Degradation of Chloroform by Zerovalent Iron: Effects of Mechanochemical Sulfidation and Nitridation on the Kinetics and Mechanism;Environmental Science & Technology;2023-06-20

5. Effects of bamboo-charcoal modified by bimetallic Fe/Pd nanoparticles on n-hexane biodegradation by bacteria Pseudomonas mendocina NX-1;Chemosphere;2023-03

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