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The focus of this Special Issue was on biomass ash valorization with respect to their potential for various material applications. Most of the publications in this Special Issue focused on the production of biogenic silica with different properties. Additionally, some of the publications considered application of biomass ashes and biochar as a fertilizer, for soil amendment and recovery of ash forming elements such as N and P, as well as the application of biomass feedstocks in biofuel production.Accordingly, ashes produced from the thermochemical conversion of agricultural residues have high potential to be utilized for different material applications. However, local availability, as well as scaling up the process and life-cycle assessment should be considered prior to the utilization of these materials. Furthermore, densification as a mechanical pre-treatment can be crucial to improve the fuel properties, while purification of some of the ash forming elements, such as calcium, potassium, and prosperous should also not be disregarded in future investigations.

rice husk --- rice husk ash --- silica --- engineered particle --- bottom-up process --- silica extraction --- valorization --- agricultural byproduct --- sustainable material --- biomass --- renewable material --- biogenic amorphous silica --- green chemistry --- maize leaves --- sugarcane fiber --- sugarcane leaves --- sugarcane pith --- biorefinery --- multi-objectives RSM --- nano-silica --- de-ashing --- cellulose crystals --- carbon nanotubes --- cellulose --- sugarcane bagasse --- capacitance --- maize straw --- acid leaching --- ash --- pyrolysis --- nitrogen conversion --- wood ash --- fertilizer --- heat and power plants --- heavy metals --- nutrients --- German fertilizer legislation --- alkaline leaching --- continuous process --- bio-based material --- waste --- exhausted grape marc --- biochar --- soil amendment --- biogas --- lifecycle assessment --- greenhouse gas emissions --- mitigation potential --- GHG mitigation costs --- manure --- biomethane --- RED II --- EU ETS --- smoldering --- high moisture content --- specific surface area --- rice straw --- nanosilica --- methylene blue --- zero waste generation --- decolorization --- SDGs --- municipal sewage sludge --- energy recovery --- phosphorus recovery --- techno-economic analysis --- mono-combustion --- co-combustion --- n/a

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The circular economy, as a new business model that is different from the economy, can achieve the reuse and recycling of waste for waste minimization, improve the efficiency of resource utilization, and mitigate carbon emissions. It is no doubt that promoting the development of the circular economy can facilitate the transition to low-carbon processes and carbon-neutral development. However, there are still several questions that need to be answered: (1) How can the circular economy contribute to a low-carbon transition? (2) How do we address the fact that the circular economy model may also cause some new environmental problems, and how should we identify what the most environmentally friendly solution is among multiple alternatives for the circular economy? (3) Governmental regulation, policies and incentives play a significant role in promoting the development of the circular economy, so what are the policy instruments that can contribute to its development? (4) How can technological progress and solutions contribute to the circular economy? (5) How can environmental impact assessments contribute to the circular economy? (6) How can we achieve a circular economy or low-carbon transition through changes in consumption behaviors? In order to answer the above-mentioned questions, we launched a Special Issue in Energies. There are a total of six papers published in this Special Issue. This e-book collects these papers to build a platform for sharing advanced concepts, tools and methods for the users to take actions to achieve a circular economy.

Technology: general issues --- History of engineering & technology --- Industry & industrial studies --- carbon label --- bibliometric analysis --- CiteSpace --- carbon labeling scheme --- purchase intention --- willingness to pay --- eco-efficiency --- environmental impact --- GHG emissions --- energy consumption --- food chain --- short food supply chains (SFSCs) --- Life Cycle Assessment (LCA) --- rice husk --- gasification --- CHP --- Aspen Plus --- simulation --- economic assessment --- circular economy --- low-carbon energy --- waste-based bioenergy --- resource efficiency --- product policy --- energy efficiency --- digitalization --- life cycle assessment --- easy-to-repair design --- built environment --- gas boilers --- heat pumps --- n/a

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The focus of this Special Issue was on biomass ash valorization with respect to their potential for various material applications. Most of the publications in this Special Issue focused on the production of biogenic silica with different properties. Additionally, some of the publications considered application of biomass ashes and biochar as a fertilizer, for soil amendment and recovery of ash forming elements such as N and P, as well as the application of biomass feedstocks in biofuel production.Accordingly, ashes produced from the thermochemical conversion of agricultural residues have high potential to be utilized for different material applications. However, local availability, as well as scaling up the process and life-cycle assessment should be considered prior to the utilization of these materials. Furthermore, densification as a mechanical pre-treatment can be crucial to improve the fuel properties, while purification of some of the ash forming elements, such as calcium, potassium, and prosperous should also not be disregarded in future investigations.

Technology: general issues --- rice husk --- rice husk ash --- silica --- engineered particle --- bottom-up process --- silica extraction --- valorization --- agricultural byproduct --- sustainable material --- biomass --- renewable material --- biogenic amorphous silica --- green chemistry --- maize leaves --- sugarcane fiber --- sugarcane leaves --- sugarcane pith --- biorefinery --- multi-objectives RSM --- nano-silica --- de-ashing --- cellulose crystals --- carbon nanotubes --- cellulose --- sugarcane bagasse --- capacitance --- maize straw --- acid leaching --- ash --- pyrolysis --- nitrogen conversion --- wood ash --- fertilizer --- heat and power plants --- heavy metals --- nutrients --- German fertilizer legislation --- alkaline leaching --- continuous process --- bio-based material --- waste --- exhausted grape marc --- biochar --- soil amendment --- biogas --- lifecycle assessment --- greenhouse gas emissions --- mitigation potential --- GHG mitigation costs --- manure --- biomethane --- RED II --- EU ETS --- smoldering --- high moisture content --- specific surface area --- rice straw --- nanosilica --- methylene blue --- zero waste generation --- decolorization --- SDGs --- municipal sewage sludge --- energy recovery --- phosphorus recovery --- techno-economic analysis --- mono-combustion --- co-combustion --- rice husk --- rice husk ash --- silica --- engineered particle --- bottom-up process --- silica extraction --- valorization --- agricultural byproduct --- sustainable material --- biomass --- renewable material --- biogenic amorphous silica --- green chemistry --- maize leaves --- sugarcane fiber --- sugarcane leaves --- sugarcane pith --- biorefinery --- multi-objectives RSM --- nano-silica --- de-ashing --- cellulose crystals --- carbon nanotubes --- cellulose --- sugarcane bagasse --- capacitance --- maize straw --- acid leaching --- ash --- pyrolysis --- nitrogen conversion --- wood ash --- fertilizer --- heat and power plants --- heavy metals --- nutrients --- German fertilizer legislation --- alkaline leaching --- continuous process --- bio-based material --- waste --- exhausted grape marc --- biochar --- soil amendment --- biogas --- lifecycle assessment --- greenhouse gas emissions --- mitigation potential --- GHG mitigation costs --- manure --- biomethane --- RED II --- EU ETS --- smoldering --- high moisture content --- specific surface area --- rice straw --- nanosilica --- methylene blue --- zero waste generation --- decolorization --- SDGs --- municipal sewage sludge --- energy recovery --- phosphorus recovery --- techno-economic analysis --- mono-combustion --- co-combustion

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Silica and silicon-based nanostructures are now well-understood materials for which the technologies are mature. The most obvious applications, such as electronic devices, have been widely explored over the last two decades. The aim of this Special Issue is to bring together the state of the art in the field and to enable the emergence of new ideas and concepts for silicon and silica-based nanostructures.

Research & information: general --- Physics --- maize --- NPK --- SiO2-NPs --- productivity --- fertilizer --- mineral --- weevils --- LC50 --- toxicity --- mesoporous silica --- nanomaterials --- desulfurization --- fuel --- JP-8 --- black silicon --- light absorption enhanced --- micro-nano manufacturing --- nanometer surface --- nano-silica --- tricalcium aluminate --- pozzolanic reaction --- C-A-S-H gel --- silicon nanoparticles --- silicon nanowires --- synthesis --- high energy density --- lithium-ion batteries --- high-capacity anode --- VLS --- laser pyrolysis --- size effect --- shape effect --- biomass rice husk --- silicon --- nanocrystals --- luminescence --- high porosity --- pH sensor --- temperature sensor --- dual sensor --- metal-assisted chemical etching --- Si nanostructures --- high aspect ratio --- zone plate --- silicon nanowire --- nanowire array --- silicon anode --- n-type silicon anode --- Li-ion battery --- nanowires --- nanonets --- transistor --- integration process --- n/a --- Research. --- Physics.

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Silica and silicon-based nanostructures are now well-understood materials for which the technologies are mature. The most obvious applications, such as electronic devices, have been widely explored over the last two decades. The aim of this Special Issue is to bring together the state of the art in the field and to enable the emergence of new ideas and concepts for silicon and silica-based nanostructures.

maize --- NPK --- SiO2-NPs --- productivity --- fertilizer --- mineral --- weevils --- LC50 --- toxicity --- mesoporous silica --- nanomaterials --- desulfurization --- fuel --- JP-8 --- black silicon --- light absorption enhanced --- micro-nano manufacturing --- nanometer surface --- nano-silica --- tricalcium aluminate --- pozzolanic reaction --- C-A-S-H gel --- silicon nanoparticles --- silicon nanowires --- synthesis --- high energy density --- lithium-ion batteries --- high-capacity anode --- VLS --- laser pyrolysis --- size effect --- shape effect --- biomass rice husk --- silicon --- nanocrystals --- luminescence --- high porosity --- pH sensor --- temperature sensor --- dual sensor --- metal-assisted chemical etching --- Si nanostructures --- high aspect ratio --- zone plate --- silicon nanowire --- nanowire array --- silicon anode --- n-type silicon anode --- Li-ion battery --- nanowires --- nanonets --- transistor --- integration process --- n/a --- Research. --- Physics.