Telluride‐Based Materials: A Promising Route for High Performance Supercapacitors

Khan, Abdul Jabbar; Sajjad, Muhammad; Khan, Shaukat; Khan, Muhammad; Mateen, Abdul; Shah, Syed Shaheen; Arshid, Numan; He, Liang; Ma, Zeyu; Gao, Ling; Zhao, Guowei

doi:10.1002/tcr.202300302

The Chemical Record

2023

DOI: 10.1002/tcr.202300302

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Telluride‐Based Materials: A Promising Route for High Performance Supercapacitors

Abdul Jabbar Khan,

Muhammad Sajjad,

Shaukat Khan

et al.

Abstract: As supercapacitor (SC) technology continues to evolve, there is a growing need for electrode materials with high energy/power densities and cycling stability. However, research and development of electrode materials with such characteristics is essential for commercialization the SC. To meet this demand, the development of superior electrode materials has become an increasingly critical step. The electrochemical performance of SCs is greatly influenced by various factors such as the reaction mechanism, crystal… Show more

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Cited by 8 publications

References 128 publications

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Advancements in Olive‐derived Carbon: Preparation Methods and Sustainable Applications

Shabi,

Prima Hardianto,

Shaheen Shah

et al. 2024

Chemistry An Asian Journal

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In the realm of material science, carbon materials, especially olive‐derived carbon (ODC), have become vital due to their sustainability and diverse properties. This review examines the sustainable extraction and use of ODC, a carbohydrate‐rich by‐product of olive biomass. We focus on innovative preparation techniques like pyrolysis, crucial for enhancing ODC's microstructure and surface properties. Variables such as activating agents, impregnation ratios, and pyrolysis conditions significantly influence these properties. ODC's high specific surface area renders it invaluable for applications in energy storage (in batteries and supercapacitors) and environmental sectors (water purification, hydrogen storage). Its versatility and accessibility underscore its potential for broad industrial use, marking it as a key element in sustainable development. This review provides a detailed analysis of ODC preparation methodologies, its various applications, and its role in advancing sustainable energy solutions. We highlight the novelty of ODC research and its impact on future studies, establishing this review as a crucial resource for researchers and practitioners in sustainable carbon materials. As global focus shifts towards eco‐friendly solutions, ODC emerges as a critical component in shaping a sustainable, innovation‐driven future.

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Advancements in Olive‐derived Carbon: Preparation Methods and Sustainable Applications

Shabi,

Prima Hardianto,

Shaheen Shah

et al. 2024

Chemistry An Asian Journal

View full text Add to dashboard Cite

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Empowering Green Energy Storage Systems with MXene for a Sustainable Future

Zaed,

Abdullah,

Tan

et al. 2024

The Chemical Record

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Green energy storage systems play a vital role in enabling a sustainable future by facilitating the efficient integration and utilization of renewable energy sources. The main problems related to two‐dimensional (2D) materials are their difficult synthesis process, high cost, and bulk production, which hamper their performance. In recent years, MXenes have emerged as highly promising materials for enhancing the performance of energy storage devices due to their unique properties, including their high surface area, excellent electrical and thermal conductivity, and exceptional chemical stability. This paper presents a comprehensive scientific approach that explores the potential of MXenes for empowering green energy storage systems. Which indicates the novelty of the article. The paper reviews the latest advances in MXene synthesis techniques. Furthermore, investigates the application of MXenes in various energy storage technologies, such as lithium‐ion batteries, supercapacitors, and emerging energy storage devices. The utilization of MXenes as electrodes in flexible and transparent energy storage devices is also discussed. Moreover, the paper highlights the potential of MXenes in addressing key challenges in energy storage, including enhancing energy storage capacity, improving cycling stability, and promoting fast charging and discharging rates. Additionally, industrial application and cost estimation of MXenes are explored. As the output of the work, we analyzed that HF and modified acid (LiF and HCl) are the established methods for synthesis. Due to high electrical conductivity, MXene materials are showing extraordinary results in energy storage and related applications. Making a composite hydrothermal method is one of the established methods. This scientific paper underscores the significant contributions of MXenes in advancing green energy storage systems, paving the way for a sustainable future driven by renewable energy sources. To facilitate the research, this article includes technical challenges and future recommendations for further research gaps in the topic.

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Advancing Electrical Engineering with Biomass‐derived Carbon Materials: Applications, Innovations, and Future Directions

Afridi,

Aktary,

Shaheen Shah

et al. 2024

The Chemical Record

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The ongoing global shift towards sustainability in electrical engineering necessitates novel materials that offer both ecological and technical benefits. Biomass‐derived carbon materials (BCMs) are emerging as cornerstones in this transition due to their sustainability, cost‐effectiveness, and versatile properties. This review explores the expansive role of BCMs across various electrical engineering applications, emphasizing their transformative impact and potential in fostering a sustainable technological ecosystem. The fundamentals of BCMs are investigated, including their unique structures, diverse synthesis procedures, and significant electrical and electrochemical properties. A detailed examination of recent innovations in BCM applications for energy storage, such as batteries and supercapacitors, and their pivotal role in developing advanced electronic components like sensors, detectors, and electromagnetic interference shielding composites has been covered. BCMs offer superior electrical conductivities, tunable surface chemistries, and mechanical properties compared to traditional carbon sources. These can be further enhanced through innovative doping and functionalization techniques. Moreover, this review identifies challenges related to scalability and uniformity in properties and proposes future research directions to overcome these hurdles. By integrating insights from recent studies with a forward‐looking perspective, this paper sets the stage for the next generation of electrical engineering solutions powered by biomass‐derived materials, aligning technological advancement with environmental stewardship.

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Telluride‐Based Materials: A Promising Route for High Performance Supercapacitors

Cited by 8 publications

References 128 publications

Advancements in Olive‐derived Carbon: Preparation Methods and Sustainable Applications

Advancements in Olive‐derived Carbon: Preparation Methods and Sustainable Applications

Empowering Green Energy Storage Systems with MXene for a Sustainable Future

Advancing Electrical Engineering with Biomass‐derived Carbon Materials: Applications, Innovations, and Future Directions

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