About this Research Topic
Sustainability in energy and the environment is of paramount concern in today's world. Addressing the pressing challenges of energy conversion and environmental issues, the green synthesis and application of functional materials have become pivotal in research. This research topic aims to concentrate on innovative studies involving green-synthesized carbon materials, driving the development of environmentally friendly materials, and addressing energy and environmental issues.
This research topic targets at collecting latest findings in green-synthesized carbon materials, with the goal of advancing environmental sustainability and energy innovation. Original Research, Review, Mini Review, and Perspective articles are encouraged on a variety of themes, which may include but are not limited to the following: green synthesized carbon materials for energy and environment applications.
The subject could be expanded to the following key sections:
(1) Green Synthesis of Carbon Nanomaterials and Quantum Dots: Focusing on eco-friendly methods for the synthesis of carbon nanomaterials and quantum dots, applicable to energy conversion and environmental remediation, e.g., electrode catalyst, atmospheric environmental pollutant control.
(2) Microbe-Driven Carbon Material Synthesis: Microbes possess plentiful surface sites and charges, facilitating the creation of numerous nucleation centers for interacting with metal ions and directing the nucleation and growth of inorganic structures. Consequently, they could be employed as efficient templates in the synthesis of carbon nanomaterials. This theme investigates the mechanisms and applications of microorganisms as catalysts in carbon material synthesis, exploring green synthesis strategies based on cost-effective and cultivable microbes.
(3) Biogenic Synthesis of Metal Compounds: Studying methods and mechanisms of biogenic synthesis of metal compounds to extend their applications in energy conversion and environmental purification.
(4) Control of Atmospheric Environmental Pollutants: Exploring the potential application of carbon materials in controlling atmospheric environmental pollutants, providing solutions for improving air quality.
(5) Energy Conversion and Storage Applications of Carbon Materials: Researching the applications of carbon materials in energy conversion (electrocatalysis, photocatalysis, photovoltaics), energy storage (battery), and renewable energy (solar cells) to promote clean energy development.
This research topic targets at collecting latest findings in green-synthesized carbon materials, with the goal of advancing environmental sustainability and energy innovation. Original Research, Review, Mini Review, and Perspective articles are encouraged on a variety of themes, which may include but are not limited to the following: green synthesized carbon materials for energy and environment applications.
The subject could be expanded to the following key sections:
(1) Green Synthesis of Carbon Nanomaterials and Quantum Dots: Focusing on eco-friendly methods for the synthesis of carbon nanomaterials and quantum dots, applicable to energy conversion and environmental remediation, e.g., electrode catalyst, atmospheric environmental pollutant control.
(2) Microbe-Driven Carbon Material Synthesis: Microbes possess plentiful surface sites and charges, facilitating the creation of numerous nucleation centers for interacting with metal ions and directing the nucleation and growth of inorganic structures. Consequently, they could be employed as efficient templates in the synthesis of carbon nanomaterials. This theme investigates the mechanisms and applications of microorganisms as catalysts in carbon material synthesis, exploring green synthesis strategies based on cost-effective and cultivable microbes.
(3) Biogenic Synthesis of Metal Compounds: Studying methods and mechanisms of biogenic synthesis of metal compounds to extend their applications in energy conversion and environmental purification.
(4) Control of Atmospheric Environmental Pollutants: Exploring the potential application of carbon materials in controlling atmospheric environmental pollutants, providing solutions for improving air quality.
(5) Energy Conversion and Storage Applications of Carbon Materials: Researching the applications of carbon materials in energy conversion (electrocatalysis, photocatalysis, photovoltaics), energy storage (battery), and renewable energy (solar cells) to promote clean energy development.
Keywords: green synthesis, functional carbon materials, energy conversion, environmental sustainability
Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
