Oriented growth of copper & nickel-impregnated δ -MnO2 nanofilaments anchored onto sulfur-doped biochar template as hybrid adsorbents for removing phenolic compounds by adsorption-oxidation process
Author:
Publisher
Elsevier BV
Subject
Industrial and Manufacturing Engineering,Process Chemistry and Technology,Energy Engineering and Power Technology,General Chemical Engineering,General Chemistry
Reference84 articles.
1. Contributions of recycled wastewater to clean water and sanitation sustainable development goals;Tortajada;NPJ Clean. Water,2020
2. Adsorption of phenol and its derivatives from water using synthetic resins and low-cost natural adsorbents: a review;Lin;J. Environ. Manage.,2009
3. Efficient separation of phenolic compounds from model oils by dual-functionalized ionic liquids;Yao;Chem. Eng. Process.-Process Intensificat.,2018
4. Theoretical investigation of phenol adsorption on functionalized graphene using DFT calculations for effective removal of organic contaminants from wastewater;Ghahghaey;J. Mol. Liq.,2021
5. A novel micro pipeline system for continuous extraction and recovery of phenol from aqueous solution;Duan;Chem. Eng. Process.-Process Intensificat.,2021
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