Tomonobu Senjyu scite author profile

Along with industrialization and rapid urbanization, environmental remediation is globally a perpetual concept to deliver a sustainable environment. Various organic and inorganic wastes from industries and domestic homes are released into water systems. These wastes carry contaminants with detrimental effects on the environment. Consequently, there is an urgent need for an appropriate wastewater treatment technology for the effective decontamination of our water systems. One promising approach is employing nanoparticles of metal oxides as photocatalysts for the degradation of these water pollutants. Transition metal oxides and their composites exhibit excellent photocatalytic activities and along show favorable characteristics like non-toxicity and stability that also make them useful in a wide range of applications. This study discusses some characteristics of metal oxides and briefly outlined their various applications. It focuses on the metal oxides TiO2, ZnO, WO3, CuO, and Cu2O, which are the most common and recognized to be cost-effective, stable, efficient, and most of all, environmentally friendly for a sustainable approach for environmental remediation. Meanwhile, this study highlights the photocatalytic activities of these metal oxides, recent developments, challenges, and modifications made on these metal oxides to overcome their limitations and maximize their performance in the photodegradation of pollutants.

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Integrated approach for optimal techno-economic planning for high renewable energy-based isolated microgrid considering cost of energy storage and demand response strategies

Kiptoo

Lotfy

Adewuyi

et al. 2020

Energy Conversion and Management

150

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A comprehensive review of low voltage ride through capability strategies for the wind energy conversion systems

Howlader

Senjyu

2016

Renewable and Sustainable Energy Reviews

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A Systematic Review of Metal Oxide Applications for Energy and Environmental Sustainability

Danish

Bhattacharya

Stepanova

et al. 2020

Metals

162

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Energy is the fundamental requirement of all physical, chemical, and biological processes which are utilized for better living standards. The toll that the process of development takes on the environment and economic activity is evident from the arising concerns about sustaining the industrialization that has happened in the last centuries. The increase in carbon footprint and the large-scale pollution caused by industrialization has led researchers to think of new ways to sustain the developmental activities, whilst simultaneously minimizing the harming effects on the enviroment. Therefore, decarbonization strategies have become an important factor in industrial expansion, along with the invention of new catalytic methods for carrying out non-thermal reactions, energy storage methods and environmental remediation through the removal or breakdown of harmful chemicals released during manufacturing processes. The present article discusses the structural features and photocatalytic applications of a variety of metal oxide-based materials. Moreover, the practical applicability of these materials is also discussed, as well as the transition of production to an industrial scale. Consequently, this study deals with a concise framework to link metal oxide application options within energy, environmental and economic sustainability, exploring the footprint analysis as well.

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Critical Boundary Index (CBI) based on active and reactive power deviations

Furukakoi

Adewuyi

Danish

et al. 2018

International Journal of Electrical Power & Energy Systems

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Tomonobu Senjyu

Photocatalytic Applications of Metal Oxides for Sustainable Environmental Remediation

Integrated approach for optimal techno-economic planning for high renewable energy-based isolated microgrid considering cost of energy storage and demand response strategies

A comprehensive review of low voltage ride through capability strategies for the wind energy conversion systems

A Systematic Review of Metal Oxide Applications for Energy and Environmental Sustainability

Critical Boundary Index (CBI) based on active and reactive power deviations

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