Advanced materials can be described as systems designed with specific materials that vary in their nature, characteristics, shape, and dimensions. In recent years, the invention of advanced materials has become an area of significant scientific and technological interest, due to its applications in the design and manufacture of innovative products in various fields. One of those is new technologies applied in water and energy systems. Examples of these include solar cells, filters for water, materials used for adsorption of pollutants, and photocatalysis among others. These new technologies are necessary due to the growing demand for energy and the decrease in the availability and quality of water. These issues coupled with the increasing effects of climate change make it necessary to look for innovative alternatives to remediate these problems.
From the perspective of environmental sustainability, it is essential to consider the use of renewable raw materials or materials which exert a low impact on the environment. Making it a significant priority to manufacture new applications of advanced materials in treatment techniques.
The objective of this Research Topic is to publish a variety of investigations relating to hot topics of advanced materials for use in water quality and wastewater treatment. In addition, advanced materials which are energy-saving, including energy cells, as well as the design and optimization of materials from forest residues such as nanocellulose and other natural polymers. This improvement in developing the applications of advanced materials in both water and wastewater treatment in order to optimize the energy system will lead to an increase in sustainability moving forward. This collection aims to highlight the requirement for these treatments as well as identify and minimize the challenges faced by climate change in the environment.
This collection seeks high-quality works and topics focusing on, but not limited to:
• Design of new materials for water and wastewater treatment systems for example membrane and absorbent materials. Advanced materials applied to remove pollutants such as metals, colorants, emerging pollutants, and pathogens in water
• Catalytic nanoparticles for photocatalysis processes in wastewater treatments. The improvement in nanocatalysts is of great importance, ranging from several environmental to remediation important reactions
• Sustainable materials and biomaterials for different raw materials and alternatives to oil derivatives for remove pollutants in water
• Optimization of renewable energy systems applied to water treatment systems applying materials that improve energy storage and energy generation in photovoltaic cells.
• Nanomaterial as water quality sensors, such as carbon derivatives
• Biotechnology and biorefineries that convert biomass to energy and other beneficial by-products (such as material) for example materials from forests such as nanocellulose and other natural polymers.
Advanced materials can be described as systems designed with specific materials that vary in their nature, characteristics, shape, and dimensions. In recent years, the invention of advanced materials has become an area of significant scientific and technological interest, due to its applications in the design and manufacture of innovative products in various fields. One of those is new technologies applied in water and energy systems. Examples of these include solar cells, filters for water, materials used for adsorption of pollutants, and photocatalysis among others. These new technologies are necessary due to the growing demand for energy and the decrease in the availability and quality of water. These issues coupled with the increasing effects of climate change make it necessary to look for innovative alternatives to remediate these problems.
From the perspective of environmental sustainability, it is essential to consider the use of renewable raw materials or materials which exert a low impact on the environment. Making it a significant priority to manufacture new applications of advanced materials in treatment techniques.
The objective of this Research Topic is to publish a variety of investigations relating to hot topics of advanced materials for use in water quality and wastewater treatment. In addition, advanced materials which are energy-saving, including energy cells, as well as the design and optimization of materials from forest residues such as nanocellulose and other natural polymers. This improvement in developing the applications of advanced materials in both water and wastewater treatment in order to optimize the energy system will lead to an increase in sustainability moving forward. This collection aims to highlight the requirement for these treatments as well as identify and minimize the challenges faced by climate change in the environment.
This collection seeks high-quality works and topics focusing on, but not limited to:
• Design of new materials for water and wastewater treatment systems for example membrane and absorbent materials. Advanced materials applied to remove pollutants such as metals, colorants, emerging pollutants, and pathogens in water
• Catalytic nanoparticles for photocatalysis processes in wastewater treatments. The improvement in nanocatalysts is of great importance, ranging from several environmental to remediation important reactions
• Sustainable materials and biomaterials for different raw materials and alternatives to oil derivatives for remove pollutants in water
• Optimization of renewable energy systems applied to water treatment systems applying materials that improve energy storage and energy generation in photovoltaic cells.
• Nanomaterial as water quality sensors, such as carbon derivatives
• Biotechnology and biorefineries that convert biomass to energy and other beneficial by-products (such as material) for example materials from forests such as nanocellulose and other natural polymers.