Enhanced degradation of azo dye using mixed cultures of white-rot fungi in a modified rotating packed disc bioreactor and reuse of treated water-Reference-Cited by-同舟云学术

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Enhanced degradation of azo dye using mixed cultures of white-rot fungi in a modified rotating packed disc bioreactor and reuse of treated water

Published:2023-06 Issue: Volume:22 Page:101449
ISSN:2589-014X
Container-title:Bioresource Technology Reports
language:en
Short-container-title:Bioresource Technology Reports

Author:

Kalnake Rohit P.,Raval Ritu,Murthy D.V.R.,Vanzara Piyush B.,Raval Keyur

Publisher

Elsevier BV

Subject

Waste Management and Disposal,Renewable Energy, Sustainability and the Environment,Environmental Engineering,Bioengineering

Reference64 articles.

1. Biodegradation of bis-azo dye reactive black 5 by white-rot fungus Trametes gibbosa sp. WRF 3 and its metabolite characterization;Adnan;Water Air Soil Pollut.,2014

2. Understanding the biodegradation pathways of azo dyes by immobilized white-rot fungus, Trametes hirsuta D7, using UPLC-PDA-FTICR MS supported by in silico simulations and toxicity assessment;Alam;Chemosphere,2023

3. Biodegradation of synthetic dyes - a review;Ali;Water Air Soil Pollut.,2010

4. Ecofriendly biodegradation of Reactive Black 5 by newly isolated Sterigmatomyces halophilus SSA1575, valued for textile azo dye wastewater processing and detoxification;Al-Tohamy;Sci. Rep.,2020

5. Comparative kinetic study on biodecolorization of synthetic dyes by Bjerkandera adusta SM46 in alginate beads-packed bioreactor system and shaking culture under saline-alkaline stress;Andriani;Biocatal. Biotransform.,2021

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1. Internal cycling of Fe ³⁺ /Fe ²⁺ within Fe ₃ O ₄ on cathode promotes green degradation of reactive brilliant red X-3B on anode;Environmental Technology;2024-08-19

2. Biodecolorization and biotransformation of methylene blue using mixed cultures of brown-rot fungus Daedalea dickinsii and filamentous fungus Aspergillus oryzae: identification of metabolites and degradation pathway;RSC Advances;2024

3. Internal Cycling of Fe 3+ /Fe 2+ Within Fe 3 O 4 on Cathode Promotes Green and Efficient Anode Degradation of Reactive Brilliant Red X-3b;2023

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