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Catalytic innovations: Improving wastewater treatment and hydrogen generation technologies

The effective reduction of hazardous organic pollutants in wastewater is a pressing global concern, necessitating the development of advanced treatment technologies. Pollutants such as nitrophenols and dyes, which pose significant risks to both human and aquatic health, making their reduction partic...

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Main Authors: Khan M.S.J., Mohd Sidek L., Kamal T., Khan S.B., Basri H., Zawawi M.H., Ahmed A.N.
Other Authors: 57214778682
Format: Review
Published: Academic Press 2025
Subjects:
Catalysis
Environmental Pollutants
Humans
Hydrogen
Wastewater
Water Pollutants, Chemical
Water Purification
Activation energy
Catalyst activity
Health risks
Nanocatalysts
Nanostructured materials
Organic pollutants
Sodium Borohydride
Wastewater treatment
aromatic nitro compound
benzene
congo red
dissolved oxygen
dye
hydrocarbon
hydrogen
metal nanoparticle
nanocomposite
nanomaterial
nanoparticle
nitro derivative
nitrophenol
reducing agent
% reductions
Advanced treatment
Hazardous organics
Hydrogen generation technology
Hydrogen production and methanolyse
Methanolysis
Nitrophenols
Pressung
Treatment technologies
]+ catalyst
catalysis
pollution control
reduction
wastewater treatment
chemical reaction
controlled study
human
physiotherapy
rate constant
reaction temperature
Review
temperature
waste water management
pollutant
procedures
wastewater
water management
water pollutant
Hydrogen production
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spelling my.uniten.dspace-367422025-03-03T15:44:20Z Catalytic innovations: Improving wastewater treatment and hydrogen generation technologies Khan M.S.J. Mohd Sidek L. Kamal T. Khan S.B. Basri H. Zawawi M.H. Ahmed A.N. 57214778682 58617132200 56816636300 36059229400 57065823300 39162217600 57214837520 Catalysis Environmental Pollutants Humans Hydrogen Wastewater Water Pollutants, Chemical Water Purification Activation energy Catalyst activity Health risks Nanocatalysts Nanostructured materials Organic pollutants Sodium Borohydride Wastewater treatment aromatic nitro compound benzene congo red dissolved oxygen dye hydrocarbon hydrogen metal nanoparticle nanocomposite nanomaterial nanoparticle nitro derivative nitrophenol reducing agent hydrogen % reductions Advanced treatment Hazardous organics Hydrogen generation technology Hydrogen production and methanolyse Methanolysis Nitrophenols Pressung Treatment technologies ]+ catalyst catalysis hydrogen nanomaterial pollution control reduction wastewater treatment catalysis chemical reaction controlled study human physiotherapy rate constant reaction temperature Review temperature waste water management catalysis pollutant procedures wastewater water management water pollutant Hydrogen production The effective reduction of hazardous organic pollutants in wastewater is a pressing global concern, necessitating the development of advanced treatment technologies. Pollutants such as nitrophenols and dyes, which pose significant risks to both human and aquatic health, making their reduction particularly crucial. Despite the existence of various methods to eliminate these pollutants, they are not without limitations. The utilization of nanomaterials as catalysts for chemical reduction exhibits a promising alternative owing to their distinguished catalytic activity and substantial surface area. For catalytically reducing the pollutants NaBH4 has been utilized as a useful source for it because it reduces the pollutants quiet efficiently and it also releases hydrogen gas as well which can be used as a source of energy. This paper provides a comprehensive review of recent research on different types of nanomaterials that function as catalysts to reduce organic pollutants and also generating hydrogen from NaBH4 methanolysis while also evaluating the positive and negative aspects of nanocatalyst. Additionally, this paper examines the features effecting the process and the mechanism of catalysis. The comparison of different catalysts is based on size of catalyst, reaction time, rate of reaction, hydrogen generation rate, activation energy, and durability. The information obtained from this paper can be used to steer the development of new catalysts for reducing organic pollutants and generation hydrogen by NaBH4 methanolysis. ? 2024 Elsevier Ltd Final 2025-03-03T07:44:20Z 2025-03-03T07:44:20Z 2024 Review 10.1016/j.jenvman.2024.120228 2-s2.0-85185532705 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85185532705&doi=10.1016%2fj.jenvman.2024.120228&partnerID=40&md5=54691625daefbea7c0fda27650d92e30 https://irepository.uniten.edu.my/handle/123456789/36742 354 120228 Academic Press Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Catalysis
Environmental Pollutants
Humans
Hydrogen
Wastewater
Water Pollutants, Chemical
Water Purification
Activation energy
Catalyst activity
Health risks
Nanocatalysts
Nanostructured materials
Organic pollutants
Sodium Borohydride
Wastewater treatment
aromatic nitro compound
benzene
congo red
dissolved oxygen
dye
hydrocarbon
hydrogen
metal nanoparticle
nanocomposite
nanomaterial
nanoparticle
nitro derivative
nitrophenol
reducing agent
hydrogen
% reductions
Advanced treatment
Hazardous organics
Hydrogen generation technology
Hydrogen production and methanolyse
Methanolysis
Nitrophenols
Pressung
Treatment technologies
]+ catalyst
catalysis
hydrogen
nanomaterial
pollution control
reduction
wastewater treatment
catalysis
chemical reaction
controlled study
human
physiotherapy
rate constant
reaction temperature
Review
temperature
waste water management
catalysis
pollutant
procedures
wastewater
water management
water pollutant
Hydrogen production
spellingShingle Catalysis
Environmental Pollutants
Humans
Hydrogen
Wastewater
Water Pollutants, Chemical
Water Purification
Activation energy
Catalyst activity
Health risks
Nanocatalysts
Nanostructured materials
Organic pollutants
Sodium Borohydride
Wastewater treatment
aromatic nitro compound
benzene
congo red
dissolved oxygen
dye
hydrocarbon
hydrogen
metal nanoparticle
nanocomposite
nanomaterial
nanoparticle
nitro derivative
nitrophenol
reducing agent
hydrogen
% reductions
Advanced treatment
Hazardous organics
Hydrogen generation technology
Hydrogen production and methanolyse
Methanolysis
Nitrophenols
Pressung
Treatment technologies
]+ catalyst
catalysis
hydrogen
nanomaterial
pollution control
reduction
wastewater treatment
catalysis
chemical reaction
controlled study
human
physiotherapy
rate constant
reaction temperature
Review
temperature
waste water management
catalysis
pollutant
procedures
wastewater
water management
water pollutant
Hydrogen production
Khan M.S.J.
Mohd Sidek L.
Kamal T.
Khan S.B.
Basri H.
Zawawi M.H.
Ahmed A.N.
Catalytic innovations: Improving wastewater treatment and hydrogen generation technologies
description The effective reduction of hazardous organic pollutants in wastewater is a pressing global concern, necessitating the development of advanced treatment technologies. Pollutants such as nitrophenols and dyes, which pose significant risks to both human and aquatic health, making their reduction particularly crucial. Despite the existence of various methods to eliminate these pollutants, they are not without limitations. The utilization of nanomaterials as catalysts for chemical reduction exhibits a promising alternative owing to their distinguished catalytic activity and substantial surface area. For catalytically reducing the pollutants NaBH4 has been utilized as a useful source for it because it reduces the pollutants quiet efficiently and it also releases hydrogen gas as well which can be used as a source of energy. This paper provides a comprehensive review of recent research on different types of nanomaterials that function as catalysts to reduce organic pollutants and also generating hydrogen from NaBH4 methanolysis while also evaluating the positive and negative aspects of nanocatalyst. Additionally, this paper examines the features effecting the process and the mechanism of catalysis. The comparison of different catalysts is based on size of catalyst, reaction time, rate of reaction, hydrogen generation rate, activation energy, and durability. The information obtained from this paper can be used to steer the development of new catalysts for reducing organic pollutants and generation hydrogen by NaBH4 methanolysis. ? 2024 Elsevier Ltd
author2 57214778682
author_facet 57214778682
Khan M.S.J.
Mohd Sidek L.
Kamal T.
Khan S.B.
Basri H.
Zawawi M.H.
Ahmed A.N.
format Review
author Khan M.S.J.
Mohd Sidek L.
Kamal T.
Khan S.B.
Basri H.
Zawawi M.H.
Ahmed A.N.
author_sort Khan M.S.J.
title Catalytic innovations: Improving wastewater treatment and hydrogen generation technologies
title_short Catalytic innovations: Improving wastewater treatment and hydrogen generation technologies
title_full Catalytic innovations: Improving wastewater treatment and hydrogen generation technologies
title_fullStr Catalytic innovations: Improving wastewater treatment and hydrogen generation technologies
title_full_unstemmed Catalytic innovations: Improving wastewater treatment and hydrogen generation technologies
title_sort catalytic innovations: improving wastewater treatment and hydrogen generation technologies
publisher Academic Press
publishDate 2025
_version_ 1825816117950545920
score 13.244369

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