The excessive exploitation and utilization of non-renewable resources will cause the exhaustion of resources and negative impacts on the ecology. Worldwide, people are trying to develop a series of strategies to protect the earth's resources and environment, such as energy conservation and replacement, emission reduction, and industrial upgrading. These efforts finally aim to achieve carbon neutrality, and sustainable utilization of resources and energy.
Green chemistry is an effective technology and plays an important role in energy development and environmental protection, benefiting the maintenance of a circular economy and sustainable development. Progress in energy and environment fields largely depends on the chemical process, and more than 90% of novel applications in these fields are related to the development of chemical technology. Green chemistry technology associated with energy and environment fields mainly focuses on conversion control and comprehensive utilization of low-grade fuels, development of renewable energy sources, environmental impacts of chemical products (such as agricultural films, pesticides, fertilizers, and plastics), the reduction of raw material utilization and waste emissions, control and disposal of pollutants in industrial and agricultural production. Green chemical energy develops analytical methods for energy development and environmental protection, and updated materials, technologies, products, and processes.
We welcome Original Research articles, Reviews, Mini Reviews, and Perspectives on topics of waste recycling using green chemistry technologies for energy conservation and environmental protection. Specific themes include, but are not limited to:
• Theoretical and experimental investigations, as well as scaling-up studies within the context of energy conservation & pollution control;
• New chemical technologies in the conversion and transformation of energy & pollutants;
• Design, synthesis, and application of novel materials in energy conservation & pollution control;
• Advanced chemistry concept in the enhancement of reaction route and optimization of reaction conditions for energy conservation & pollution control.
The excessive exploitation and utilization of non-renewable resources will cause the exhaustion of resources and negative impacts on the ecology. Worldwide, people are trying to develop a series of strategies to protect the earth's resources and environment, such as energy conservation and replacement, emission reduction, and industrial upgrading. These efforts finally aim to achieve carbon neutrality, and sustainable utilization of resources and energy.
Green chemistry is an effective technology and plays an important role in energy development and environmental protection, benefiting the maintenance of a circular economy and sustainable development. Progress in energy and environment fields largely depends on the chemical process, and more than 90% of novel applications in these fields are related to the development of chemical technology. Green chemistry technology associated with energy and environment fields mainly focuses on conversion control and comprehensive utilization of low-grade fuels, development of renewable energy sources, environmental impacts of chemical products (such as agricultural films, pesticides, fertilizers, and plastics), the reduction of raw material utilization and waste emissions, control and disposal of pollutants in industrial and agricultural production. Green chemical energy develops analytical methods for energy development and environmental protection, and updated materials, technologies, products, and processes.
We welcome Original Research articles, Reviews, Mini Reviews, and Perspectives on topics of waste recycling using green chemistry technologies for energy conservation and environmental protection. Specific themes include, but are not limited to:
• Theoretical and experimental investigations, as well as scaling-up studies within the context of energy conservation & pollution control;
• New chemical technologies in the conversion and transformation of energy & pollutants;
• Design, synthesis, and application of novel materials in energy conservation & pollution control;
• Advanced chemistry concept in the enhancement of reaction route and optimization of reaction conditions for energy conservation & pollution control.