Fabrication of Graphene from Camphor: Emerging Energy Applications

Fabrication of Graphene from Camphor: Emerging Energy Applications provides a review of recent discoveries in the field of graphene synthesis using natural camphor as a solid carbon source. It focuses on low-cost fabrication processes, graphene-silicon and graphene-silicon nanowire arrays, and lithium-ion battery applications.

Format: Hardback
Length: 64 pages
Publication date: 14 April 2021
Publisher: Taylor & Francis Ltd

Here is the rephrased text:
Graphene, a remarkable material with exceptional properties, has garnered significant attention in recent years due to its potential applications in various fields. In particular, the synthesis of graphene sheets using naturally available sources of carbon as solid precursors has emerged as a promising approach. This review aims to provide a concise overview of recent discoveries in this field, with a specific focus on the synthesis of graphene sheets using natural camphor as a solid source of carbon.

The low-cost fabrication process for the development of large-scale graphene using natural camphor as a solid source of carbon is one of the key issues addressed in this review. Camphor, a naturally occurring substance, has been identified as a cost-effective and readily available carbon source for graphene synthesis. The process involves the conversion of camphor into graphene oxide (GO), followed by thermal reduction to produce high-quality graphene sheets. This approach not only reduces the cost of graphene production but also simplifies the synthesis process, making it more accessible to researchers and industries.

Another significant issue discussed in this review is the fabrication of graphene-silicon and graphene-silicon nanowire arrays (SiNWAs) Schottky junction near-infrared photodetectors (NIRPDs). Graphene, with its high electron mobility and excellent electrical properties, has the potential to enhance the performance of NIRPDs. SiNWAs, in particular, offer promising features such as high sensitivity, fast response time, and broad spectral response. By integrating graphene into these devices, researchers aim to develop more efficient and cost-effective NIRPDs for various applications, including medical imaging, environmental monitoring, and homeland security.

Furthermore, this review explores the applications of graphene thin film for lithium-ion batteries. Graphene, due to its high surface area, excellent conductivity, and robust mechanical properties, has the potential to improve the performance and longevity of lithium-ion batteries. Researchers are exploring various methods to incorporate graphene into battery electrodes, such as coating graphene layers on existing battery materials or fabricating graphene-based batteries. The integration of graphene into lithium-ion batteries has the potential to revolutionize the energy storage industry, providing faster charging times, higher energy densities, and longer battery lifetimes.

In conclusion, the fabrication of graphene from camphor: Emerging Energy Applications provides a valuable insight into the recent developments in the field of graphene synthesis. The review highlights the low-cost fabrication process for large-scale graphene production using natural camphor as a solid source of carbon. It also explores the fabrication of graphene-silicon and graphene-silicon nanowire arrays Schottky junction near-infrared photodetectors and the applications of graphene thin film for lithium-ion batteries. These discoveries have the potential to revolutionize various industries, from electronics to energy storage, and have significant implications for the future of technology.

Weight: 204g
Dimension: 225 x 146 x 11 (mm)
ISBN-13: 9780367677237