Collection

Advances in Eco-Materials

The Topical Collection of eco-materials aims to collect a wide variety of topics from different disciplines that share the focus on advanced eco-materials for green energy production and environment. The scope of this Topical Collection is intentionally broad and encompasses relevant fields for developing ecofriendly and sustainable society, including topics such as:

Emerged materials for clean energy conversion; advanced catalyst for energy conversion; photocatalysts for hydrogen evolution; photocatalysts for organic contaminants degradation and sterilization; electrode materials in fuel cell; novel ceramic materials and composites; biomass-based materials and technologies; long-term use materials; heat resistant materials; wear resistant materials; self-healing materials; solid waste management; eco-technologies for wastewater treatment; hazardous waste management and treatment technologies; green manufacturing and processing of materials; energy saving materials and structures; environment friendly materials; functional materials for life quality improvement; eco-friendly materials for improvement of indoor air quality; resource-efficient manufacturing process; life-cycle cost effective materials.

Articles will undergo all of the journal's standard peer review and editorial processes outlined in its submission guidelines

Keywords: Photocatalytic Material; Energy Storage Materials; Electrode Materials; Novel Ceramic Materials; Long-term Use Materials; Self-healing Materials; Energy Saving Materials; Environment Friendly Materials; Solid Waste Utilization; Manufacturing Process

Editors

  • Wenbin CAO

    University in Beijing, China He received his Ph.D. degree at the University of Science and Technology Beijing in 1998. From 1998 to 2002, he worked in the Beijing Institute of Technology as the postdoctoral fellow and Osaka University as the COE researcher, respectively. Prof. Cao is currently the associate dean of the School of Materials Science and Engineering, University of Science and Technology Beijing, China. His current research topics mainly deal with the development of highly efficient visible-light-responsive photocatalytic materials, as well as their mass production and corresponding applications in environmental remediation.

Articles (5 in this collection)