Your search keyword '"Ganesan Anushya"' showing total 9 results

1. Recent development and challenges in fuel cells and water electrolyzer reactions: an overview

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Author

Rasu Ramachandran, Tse-Wei Chen, Pitchaimani Veerakumar, Ganesan Anushya, Shen-Ming Chen, Ramanjam Kannan, Vinitha Mariyappan, Selvam Chitra, Nagappan Ponmurugaraj, and Muthusamy Boominathan

Subjects

General Chemical Engineering, General Chemistry

Abstract

This review expresses recent trends in electrocatalysts towards hydrogen production and water oxidation. The recent and future trends with different strategies for the development of electrocatalysts for fuel cells are highlighted. more...

Published

2022

2. Fundamentals of 2-D Materials

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Author

Rasu Ramachandran, Michael Benjamin, Ganesan Anushya, and Raj Sarika

Published

2021

3. High-Performance-Based Perovskite-Supported Nanocomposite for the Development of Green Energy Device Applications: An Overview

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Author

Ganesan Anushya, Shen-Ming Chen, Selvarajan Divya Rani, Vinitha Mariyappan, Rasu Ramachandran, N. Vasimalai, Perumal Elumalai, and Tse-Wei Chen

Subjects

Supercapacitor, Electrode material, Nanocomposite, Materials science, nanocomposite, business.industry, energy-storage devices, General Chemical Engineering, Potential candidate, Nanotechnology, Review, Energy storage, Renewable energy, synthesis strategies, lcsh:Chemistry, lcsh:QD1-999, Fuel cells, cyclic stability, General Materials Science, business, perovskite, Perovskite (structure)

Abstract

Perovskite-based electrode catalysts are the most promising potential candidate that could bring about remarkable scientific advances in widespread renewable energy-storage devices, especially supercapacitors, batteries, fuel cells, solid oxide fuel cells, and solar-cell applications. This review demonstrated that perovskite composites are used as advanced electrode materials for efficient energy-storage-device development with different working principles and various available electrochemical technologies. Research efforts on increasing energy-storage efficiency, a wide range of electro-active constituents, and a longer lifetime of the various perovskite materials are discussed in this review. Furthermore, this review describes the prospects, widespread available materials, properties, synthesis strategies, uses of perovskite-supported materials, and our views on future perspectives of high-performance, next-generation sustainable-energy technology. more...

Published

2021

4. Graphene and Perovskite-Based Nanocomposite for Both Electrochemical and Gas Sensor Applications: An Overview

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Author

Ganesan Anushya, Shen-Ming Chen, Tse-Wei Chen, K. Ramachandran, and Rasu Ramachandran

Subjects

Materials science, Cost effectiveness, detection limit, Hydrogen sulfide, Hydrazine, Nanotechnology, 02 engineering and technology, Review, 010402 general chemistry, Electrochemistry, sensors, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Analytical Chemistry, law.invention, chemistry.chemical_compound, law, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, perovskite, Perovskite (structure), Nanocomposite, Graphene, electrochemical sensors, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, chemistry, Electrode, graphene oxide, electrode stability, 0210 nano-technology

Abstract

Perovskite and graphene-based nanocomposites have attracted much attention and been proven as promising candidates for both gas (H2S and NH3) and electrochemical (H2O2, CH3OH and glucose) sensor applications. In this review, the development of portable sensor devices on the sensitivity, selectivity, cost effectiveness, and electrode stability of chemical and electrochemical applications is summarized. The authors are mainly focused on the common analytes in gas sensors such as hydrogen sulfide, ammonia, and electrochemical sensors including non-enzymatic glucose, hydrazine, dopamine, and hydrogen peroxide. Finally, the article also addressed the stability of composite performance and outlined recent strategies for future sensor perspectives. more...

Published

2020

5. Review—Recent Advances in the Development of Porous Carbon-Based Electrocatalysts for Water-Splitting Reaction

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Author

Tse-Wei Chen, Palraj Kalimuthu, Pitchaimani Veerakumar, Shen-Ming Chen, Ganesan Anushya, Tharini Jeyapragasam, King-Chen Lin, Vinitha Mariyappan, and Rasu Ramachandran

Subjects

Renewable Energy, Sustainability and the Environment, Materials Chemistry, Electrochemistry, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials

Abstract

The porous carbon-based materials (PCMs) have recently been attracted to many applications, specifically energy conversion and storage devices, due to their excellent electrocatalytic activities and abundant nature. The PCMs possess fascinating properties, including unique porosity, low cost, higher conductivity, fast mass transport for easy access of analytes and durability. Here, we have highlighted the different forms of PCMs, such as nanoporous, mesoporous, graphene, metal, and metal oxides based carbon composites for water-splitting reactions and their significance in important energy storage devices (metal-air batteries and fuel cells). This review is mainly focused on the various approaches for the preparation of porous carbon-based materials over the last ten years and the fabricated materials that could be applied in large-scale practical energy-related applications. In addition, we summarize the most promising strategies for the development of morphological structural based electrocatalysts to enhance their electrocatalytic performances for both OER and HER activities are discussed. more...

Published

2022

6. Recent Advances in Nanoscale Based Electrocatalysts for Metal-Air Battery, Fuel Cell and Water-Splitting Applications: An Overview

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Author

Tse-Wei Chen, Ganesan Anushya, Shen-Ming Chen, Palraj Kalimuthu, Vinitha Mariyappan, Pandi Gajendran, and Rasu Ramachandran

Subjects

Technology, Microscopy, QC120-168.85, nanocomposite, QH201-278.5, power density, Review, fabrication route, Engineering (General). Civil engineering (General), TK1-9971, nanoscale electrocatalyst, Descriptive and experimental mechanics, cyclic stability, General Materials Science, Electrical engineering. Electronics. Nuclear engineering, TA1-2040, specific capacity

Abstract

Metal-air batteries and fuel cells are considered the most promising highly efficient energy storage systems because they possess long life cycles, high carbon monoxide (CO) tolerance, and low fuel crossover ability. The use of energy storage technology in the transport segment holds great promise for producing green and clean energy with lesser greenhouse gas (GHG) emissions. In recent years, nanoscale based electrocatalysts have shown remarkable electrocatalytic performance towards the construction of sustainable energy-related devices/applications, including fuel cells, metal-air battery and water-splitting processes. This review summarises the recent advancement in the development of nanoscale-based electrocatalysts and their energy-related electrocatalytic applications. Further, we focus on different synthetic approaches employed to fabricate the nanomaterial catalysts and also their size, shape and morphological related electrocatalytic performances. Following this, we discuss the catalytic reaction mechanism of the electrochemical energy generation process, which provides close insight to develop a more efficient catalyst. Moreover, we outline the future perspectives and challenges pertaining to the development of highly efficient nanoscale-based electrocatalysts for green energy storage technology. more...

Published

2022

7. Recent Progress in the Development of Advanced Functionalized Electrodes for Oxygen Evolution Reaction: An Overview

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Author

Rasu Ramachandran, Vinitha Mariyappan, Shen-Ming Chen, Ganesan Anushya, Tse-Wei Chen, and Palraj Kalimuthu

Subjects

Technology, Engineering, Global energy, Nanotechnology, Review, Overpotential, Electrode fabrication, fabrication technique, General Materials Science, advanced electrocatalysts, Cyclic stability, Microscopy, QC120-168.85, nanocomposite, business.industry, QH201-278.5, Oxygen evolution, Engineering (General). Civil engineering (General), TK1-9971, Descriptive and experimental mechanics, oxygen evolution reaction, cyclic stability, Electrical engineering. Electronics. Nuclear engineering, TA1-2040, business

Abstract

Presently, the global energy demand for increasing clean and green energy consumption lies in the development of low-cost, sustainable, economically viable and eco-friendly natured electrochemical conversion process, which is a significant advancement in different morphological types of advanced electrocatalysts to promote their electrocatalytic properties. Herein, we overviewed the recent advancements in oxygen evolution reactions (OERs), including easy electrode fabrication and significant action in water-splitting devices. To date, various synthetic approaches and modern characterization techniques have effectively been anticipated for upgraded OER activity. Moreover, the discussed electrode catalysts have emerged as the most hopeful constituents and received massive appreciation in OER with low overpotential and long-term cyclic stability. This review article broadly confers the recent progress research in OER, the general mechanistic approaches, challenges to enhance the catalytic performances and future directions for the scientific community. more...

Published

2021

8. High-Efficiency of Bi-Functional-Based Perovskite Nanocomposite for Oxygen Evolution and Oxygen Reduction Reaction: An Overview

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Author

Palraj Kalimuthu, Vinitha Mariyappan, Shen-Ming Chen, Durai Chidambaranathan Muthumala, Tse-Wei Chen, Rasu Ramachandran, and Ganesan Anushya

Subjects

Technology, Materials science, Oxide, chemistry.chemical_element, Review, synthesis route, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Oxygen, Catalysis, chemistry.chemical_compound, General Materials Science, Perovskite (structure), Microscopy, QC120-168.85, oxygen reduction reaction, Nanocomposite, nanocomposite, QH201-278.5, Oxygen evolution, Engineering (General). Civil engineering (General), 021001 nanoscience & nanotechnology, Electrochemical energy conversion, TK1-9971, 0104 chemical sciences, Descriptive and experimental mechanics, chemistry, Chemical engineering, oxygen evolution reaction, Electrode, bi-functional perovskite, Electrical engineering. Electronics. Nuclear engineering, TA1-2040, 0210 nano-technology

Abstract

High efficient, low-cost and environmentally friendly-natured bi-functional-based perovskite electrode catalysts (BFPEC) are receiving increasing attention for oxygen reduction/oxygen evolution reaction (ORR/OER), playing an important role in the electrochemical energy conversion process using fuel cells and rechargeable batteries. Herein, we highlighted the different kinds of synthesis routes, morphological studies and electrode catalysts with A-site and B-site substitution co-substitution, generating oxygen vacancies studies for boosting ORR and OER activities. However, perovskite is a novel type of oxide family, which shows the state-of-art electrocatalytic performances in energy storage device applications. In this review article, we go through different types of BFPECs that have received massive appreciation and various strategies to promote their electrocatalytic activities (ORR/OER). Based on these various properties and their applications of BFPEC for ORR/OER, the general mechanism, catalytic performance and future outlook of these electrode catalysts have also been discussed. more...

Published

2021

9. Developing Low-Cost, High Performance, Robust and Sustainable Perovskite Electrocatalytic Materials in the Electrochemical Sensors and Energy Sectors: 'An Overview'

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Author

Tse-Wei Chen, Narayanasamy Kavitha, Selvam Chitra, Ramanjam Kannan, Ganesan Anushya, Tharini Jeyapragasam, Nagulan Bhuvana, Rasu Ramachandran, K. Dinakaran, Shen-Ming Chen, Selvarajan Divya Rani, and Vinitha Mariyappan more...

Subjects

Battery (electricity), Nanotechnology, 02 engineering and technology, lcsh:Chemical technology, 010402 general chemistry, 01 natural sciences, Catalysis, Energy storage, law.invention, Nanomaterials, lcsh:Chemistry, law, Solar cell, lcsh:TP1-1185, Electronics, Physical and Theoretical Chemistry, perovskite, nanomaterials, Perovskite (structure), Supercapacitor, Nanocomposite, nanocomposite, electrochemical sensors, 021001 nanoscience & nanotechnology, 0104 chemical sciences, lcsh:QD1-999, energy storage devices, 0210 nano-technology

Abstract

Since its discovery in 1839, research on the synthesis and application of perovskite materials has multiplied largely due to their suitability to be used in the fields of nanotechnology, chemistry and material science. Appropriate changes in composition or addition of other elements or blending with polymers may result in new hybrid and/or composite perovskite materials that will be applied in advanced fields. In this review, we have recapitulated the recent progress on perovskite nanomaterial in solar cell, battery, fuel cell and supercapacitor applications, and the prominence properties of perovskite materials, such as excellent electronic, physical, chemical and optical properties. We discussed in detail the synthesis and results of various perovskite hybrid nanomaterials published elsewhere. We have also discussed the results of various studies on these low dimensional composite nanomaterials in broad sectors such as electronics/optoelectronics, batteries, supercapacitors, solar cells and electrochemical sensors. more...

Published

2020