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The Tsinghua University–University of Waterloo Joint Research Center for Micro/Nano Energy & Environment Technology (JCMEET) is a platform. It was established on Nov.11, 2017. The Chairperson of University Council of Tsinghua University, Dr. Xu Chen, and the President of the University of Waterloo, Dr. Feridun Hamdullahpur, attended the opening ceremony and unveiled the nameplate for the joint research center on 29th of March, 2018. The research center serves as a platform for researchers at both universities to conduct joint research in the targeted areas, and to meet regularly for information exchange, talent exchange, and knowledge mobilization, especially in the fields of micro/nano, energy, and environmental technologies. The center focuses on three main interests: micro/nano energy technology, micro/nano pollution control technology, and relevant fundamental research. In order to celebrate the first anniversary of the Joint Research Center, we were invited to serve as the Guest Editors of this Special Issue of Materials focusing on the topic of micro/nano-materials for clean energy and environment. It collects research papers from a broad range of topics related to micro/nanostructured materials aimed at future energy resources, low emission energy conversion, energy storage, energy efficiency improvement, air emission control, air monitoring, air cleaning, and many other related applications. This Special Issue provides an opportunity and example for the international community to discuss how to actively address the energy and environment issues that we are facing.
particle size --- nanoplates --- filter paper --- potassium-based adsorbent --- Limestone --- engine filtration --- particle deposition --- airborne nanoparticle --- CaO --- air filtration --- DFT --- nanoparticles --- model --- multiscale model --- building materials --- shale --- adsorption --- passive building systems --- thermal energy storage (TES) --- As2O3 --- nanofibers --- product island --- TGA --- water quality --- oxidation kinetics --- failure --- loading performance --- kinetics --- pressure decay method --- concrete --- airborne dust --- mortar --- flame synthesis --- permeability measurement --- flame stabilizing on a rotating surface (FSRS) --- particle concentration --- submicro-fiber --- rotational speed --- phase change material (PCM) --- PM2.5 --- load modification --- oxygen carrier --- amalgam --- CO2 adsorption --- Karlovitz number --- cellulose nanofiber --- Lyocell fiber --- microscopic characteristics --- sulfation --- spectral blue shift
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Construction materials are the most widely used materials for civil infrastructure in our daily lives. However, from an environmental point of view, they consume a huge amount of natural resources and generate the majority of greenhouse gasses. Therefore, many new and novel technologies for designing environmentally friendly construction materials have been developed recently. This Special Issue, “Environment-Friendly Construction Materials”, has been proposed and organized as a means to present recent developments in the field of construction materials. It covers a wide range of selected topics on construction materials.
fluorescence spectrum --- microstructure --- regeneration --- sensitivity analysis --- asphalt mixes --- limestone aggregates --- bio-oil --- plateau value of dissipated strain energy ratio --- diatomite --- water-leaching pretreatment --- fatigue performance --- ultra-thin wearing course --- recycling aggregate --- design optimization --- induction heating --- vibration noise consumption --- bitumen --- relaxation --- viscous-elastic temperature --- field evaluation --- healing agents --- transmittance --- Ca-alginate microcapsules --- artificially aged asphalt mixture --- sequencing batch Chlorella reactor --- waste concrete --- plant ash lixivium --- steel fiber --- ultra-high performance concrete --- titanate coupling agent --- SEM --- self-healing --- physical properties --- porous pumice --- thermal–mechanical properties --- aggregate morphology --- asphalt mortar --- adhesion energy --- styrene–butadiene–styrene (SBS) modified bitumen --- water solute exposure --- emulsified asphalt --- demulsification speed --- mineral-asphalt mixtures --- aging processes --- phase change materials --- surface texture --- long-term drying shrinkage --- contact angle --- aging depth --- asphalt --- calcium alginate capsules --- nitrogen and phosphorus removal --- micro-morphology --- rice husk ash --- low-temperature --- cement --- hydrophobic nanosilica --- asphalt mixture --- thickness combinations --- layered double hydroxide --- initial self-healing temperature --- environmentally friendly construction materials --- epoxidized soybean oil --- limestone --- chemical evolutions --- temperature sensitivity characteristics --- micro-surfacing --- cement emulsified asphalt mixture --- dynamic characteristics --- high-strength concrete --- flame retardant --- durability --- creep --- damping --- damage constitutive model --- Ultra-High Performance Concrete (UHPC) --- granite aggregate --- diatomite-modified asphalt mixture --- healing model --- asphalt combustion --- freeze-thaw cycle --- SBS-modified bitumen --- workability --- graphene --- flow behavior index --- fluidity --- parametrization --- fatigue property --- rankinite --- railway application --- crystallization sensitivity --- aqueous solute compositions --- pozzolanic reaction --- self-healing asphalt --- recycled material --- artificial neural network --- rheological properties --- molecular dynamic simulation --- building envelopes --- aluminum hydroxide --- crumb rubber --- optimization --- viscoelasticity --- building energy conservation --- diffusing --- anti-rutting agent --- molecular bridge --- engineered cementitious composites (ECC) --- pavement performance --- morphology --- colloidal structure --- hydrophilic nanosilica --- construction materials --- road engineering --- laboratory evaluation --- rejuvenator --- fatigue equation --- aggregates --- three-point bending fatigue test --- energy-based approach --- aggregate from sanitary ceramic wastes --- polyacrylic acid --- mastic --- CO2 --- specific surface area --- aggregate image measurement system --- solubilizer --- flexibility --- simplex lattice design --- SBS/CRP-modified bitumen --- water stability --- fatigue life --- rejuvenating systems --- skid-resistance --- reclaimed asphalt pavement --- rheology --- hydration characteristic --- surface energy --- modified asphalt materials --- asphalt pavement --- stripping test --- SOD --- tensile stresses --- ultraviolet radiation --- basalt fiber --- “blue-shift” --- polyvinyl alcohol --- sanitary ceramics --- dynamic moduli --- aggregate characteristics --- compound modify --- expanded graphite --- steel slag --- induced healing --- thermal property --- effective heating depth --- dissipated strain energy --- MDA --- mechanical behavior --- plateau value of permanent deformation ratio --- long-term field service --- crack healing --- desulphurization gypsum residues --- pavement failure --- rejuvenation --- interfacial transition zone --- combination --- polyethylene glycol --- adsorption --- tensile strains --- cold recycled asphalt mixture --- resistance to deformations --- asphalt-aggregate adhesion --- viscoelastic properties --- damage evolution --- carbonation --- microwave heating --- amorphous silica --- high-modulus asphalt mixture (HMAM) --- hot mix asphalt containing recycled concrete aggregate --- microfluidic --- dynamic responses --- concrete --- asphalt mastic --- crumb rubber powder --- response surface methodology --- nanomaterial --- self-compacting concrete (SCC) --- rutting factor --- X-ray computed tomography --- fiber modification --- overlay tester --- rubber modified asphalt --- ageing --- aged bitumen --- aged asphalt --- recycling --- damage characteristics --- dynamic tests --- permeation --- ageing resistance
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Construction materials are the most widely used materials for civil infrastructure in our daily lives. However, from an environmental point of view, they consume a huge amount of natural resources and generate the majority of greenhouse gasses. Therefore, many new and novel technologies for designing environmentally friendly construction materials have been developed recently. This Special Issue, “Environment-Friendly Construction Materials”, has been proposed and organized as a means to present recent developments in the field of construction materials. It covers a wide range of selected topics on construction materials.
fluorescence spectrum --- microstructure --- regeneration --- sensitivity analysis --- asphalt mixes --- limestone aggregates --- bio-oil --- plateau value of dissipated strain energy ratio --- diatomite --- water-leaching pretreatment --- fatigue performance --- ultra-thin wearing course --- recycling aggregate --- design optimization --- induction heating --- vibration noise consumption --- bitumen --- relaxation --- viscous-elastic temperature --- field evaluation --- healing agents --- transmittance --- Ca-alginate microcapsules --- artificially aged asphalt mixture --- sequencing batch Chlorella reactor --- waste concrete --- plant ash lixivium --- steel fiber --- ultra-high performance concrete --- titanate coupling agent --- SEM --- self-healing --- physical properties --- porous pumice --- thermal–mechanical properties --- aggregate morphology --- asphalt mortar --- adhesion energy --- styrene–butadiene–styrene (SBS) modified bitumen --- water solute exposure --- emulsified asphalt --- demulsification speed --- mineral-asphalt mixtures --- aging processes --- phase change materials --- surface texture --- long-term drying shrinkage --- contact angle --- aging depth --- asphalt --- calcium alginate capsules --- nitrogen and phosphorus removal --- micro-morphology --- rice husk ash --- low-temperature --- cement --- hydrophobic nanosilica --- asphalt mixture --- thickness combinations --- layered double hydroxide --- initial self-healing temperature --- environmentally friendly construction materials --- epoxidized soybean oil --- limestone --- chemical evolutions --- temperature sensitivity characteristics --- micro-surfacing --- cement emulsified asphalt mixture --- dynamic characteristics --- high-strength concrete --- flame retardant --- durability --- creep --- damping --- damage constitutive model --- Ultra-High Performance Concrete (UHPC) --- granite aggregate --- diatomite-modified asphalt mixture --- healing model --- asphalt combustion --- freeze-thaw cycle --- SBS-modified bitumen --- workability --- graphene --- flow behavior index --- fluidity --- parametrization --- fatigue property --- rankinite --- railway application --- crystallization sensitivity --- aqueous solute compositions --- pozzolanic reaction --- self-healing asphalt --- recycled material --- artificial neural network --- rheological properties --- molecular dynamic simulation --- building envelopes --- aluminum hydroxide --- crumb rubber --- optimization --- viscoelasticity --- building energy conservation --- diffusing --- anti-rutting agent --- molecular bridge --- engineered cementitious composites (ECC) --- pavement performance --- morphology --- colloidal structure --- hydrophilic nanosilica --- construction materials --- road engineering --- laboratory evaluation --- rejuvenator --- fatigue equation --- aggregates --- three-point bending fatigue test --- energy-based approach --- aggregate from sanitary ceramic wastes --- polyacrylic acid --- mastic --- CO2 --- specific surface area --- aggregate image measurement system --- solubilizer --- flexibility --- simplex lattice design --- SBS/CRP-modified bitumen --- water stability --- fatigue life --- rejuvenating systems --- skid-resistance --- reclaimed asphalt pavement --- rheology --- hydration characteristic --- surface energy --- modified asphalt materials --- asphalt pavement --- stripping test --- SOD --- tensile stresses --- ultraviolet radiation --- basalt fiber --- “blue-shift” --- polyvinyl alcohol --- sanitary ceramics --- dynamic moduli --- aggregate characteristics --- compound modify --- expanded graphite --- steel slag --- induced healing --- thermal property --- effective heating depth --- dissipated strain energy --- MDA --- mechanical behavior --- plateau value of permanent deformation ratio --- long-term field service --- crack healing --- desulphurization gypsum residues --- pavement failure --- rejuvenation --- interfacial transition zone --- combination --- polyethylene glycol --- adsorption --- tensile strains --- cold recycled asphalt mixture --- resistance to deformations --- asphalt-aggregate adhesion --- viscoelastic properties --- damage evolution --- carbonation --- microwave heating --- amorphous silica --- high-modulus asphalt mixture (HMAM) --- hot mix asphalt containing recycled concrete aggregate --- microfluidic --- dynamic responses --- concrete --- asphalt mastic --- crumb rubber powder --- response surface methodology --- nanomaterial --- self-compacting concrete (SCC) --- rutting factor --- X-ray computed tomography --- fiber modification --- overlay tester --- rubber modified asphalt --- ageing --- aged bitumen --- aged asphalt --- recycling --- damage characteristics --- dynamic tests --- permeation --- ageing resistance
Choose an application
Construction materials are the most widely used materials for civil infrastructure in our daily lives. However, from an environmental point of view, they consume a huge amount of natural resources and generate the majority of greenhouse gasses. Therefore, many new and novel technologies for designing environmentally friendly construction materials have been developed recently. This Special Issue, “Environment-Friendly Construction Materials”, has been proposed and organized as a means to present recent developments in the field of construction materials. It covers a wide range of selected topics on construction materials.
fluorescence spectrum --- microstructure --- regeneration --- sensitivity analysis --- asphalt mixes --- limestone aggregates --- bio-oil --- plateau value of dissipated strain energy ratio --- diatomite --- water-leaching pretreatment --- fatigue performance --- ultra-thin wearing course --- recycling aggregate --- design optimization --- induction heating --- vibration noise consumption --- bitumen --- relaxation --- viscous-elastic temperature --- field evaluation --- healing agents --- transmittance --- Ca-alginate microcapsules --- artificially aged asphalt mixture --- sequencing batch Chlorella reactor --- waste concrete --- plant ash lixivium --- steel fiber --- ultra-high performance concrete --- titanate coupling agent --- SEM --- self-healing --- physical properties --- porous pumice --- thermal–mechanical properties --- aggregate morphology --- asphalt mortar --- adhesion energy --- styrene–butadiene–styrene (SBS) modified bitumen --- water solute exposure --- emulsified asphalt --- demulsification speed --- mineral-asphalt mixtures --- aging processes --- phase change materials --- surface texture --- long-term drying shrinkage --- contact angle --- aging depth --- asphalt --- calcium alginate capsules --- nitrogen and phosphorus removal --- micro-morphology --- rice husk ash --- low-temperature --- cement --- hydrophobic nanosilica --- asphalt mixture --- thickness combinations --- layered double hydroxide --- initial self-healing temperature --- environmentally friendly construction materials --- epoxidized soybean oil --- limestone --- chemical evolutions --- temperature sensitivity characteristics --- micro-surfacing --- cement emulsified asphalt mixture --- dynamic characteristics --- high-strength concrete --- flame retardant --- durability --- creep --- damping --- damage constitutive model --- Ultra-High Performance Concrete (UHPC) --- granite aggregate --- diatomite-modified asphalt mixture --- healing model --- asphalt combustion --- freeze-thaw cycle --- SBS-modified bitumen --- workability --- graphene --- flow behavior index --- fluidity --- parametrization --- fatigue property --- rankinite --- railway application --- crystallization sensitivity --- aqueous solute compositions --- pozzolanic reaction --- self-healing asphalt --- recycled material --- artificial neural network --- rheological properties --- molecular dynamic simulation --- building envelopes --- aluminum hydroxide --- crumb rubber --- optimization --- viscoelasticity --- building energy conservation --- diffusing --- anti-rutting agent --- molecular bridge --- engineered cementitious composites (ECC) --- pavement performance --- morphology --- colloidal structure --- hydrophilic nanosilica --- construction materials --- road engineering --- laboratory evaluation --- rejuvenator --- fatigue equation --- aggregates --- three-point bending fatigue test --- energy-based approach --- aggregate from sanitary ceramic wastes --- polyacrylic acid --- mastic --- CO2 --- specific surface area --- aggregate image measurement system --- solubilizer --- flexibility --- simplex lattice design --- SBS/CRP-modified bitumen --- water stability --- fatigue life --- rejuvenating systems --- skid-resistance --- reclaimed asphalt pavement --- rheology --- hydration characteristic --- surface energy --- modified asphalt materials --- asphalt pavement --- stripping test --- SOD --- tensile stresses --- ultraviolet radiation --- basalt fiber --- “blue-shift” --- polyvinyl alcohol --- sanitary ceramics --- dynamic moduli --- aggregate characteristics --- compound modify --- expanded graphite --- steel slag --- induced healing --- thermal property --- effective heating depth --- dissipated strain energy --- MDA --- mechanical behavior --- plateau value of permanent deformation ratio --- long-term field service --- crack healing --- desulphurization gypsum residues --- pavement failure --- rejuvenation --- interfacial transition zone --- combination --- polyethylene glycol --- adsorption --- tensile strains --- cold recycled asphalt mixture --- resistance to deformations --- asphalt-aggregate adhesion --- viscoelastic properties --- damage evolution --- carbonation --- microwave heating --- amorphous silica --- high-modulus asphalt mixture (HMAM) --- hot mix asphalt containing recycled concrete aggregate --- microfluidic --- dynamic responses --- concrete --- asphalt mastic --- crumb rubber powder --- response surface methodology --- nanomaterial --- self-compacting concrete (SCC) --- rutting factor --- X-ray computed tomography --- fiber modification --- overlay tester --- rubber modified asphalt --- ageing --- aged bitumen --- aged asphalt --- recycling --- damage characteristics --- dynamic tests --- permeation --- ageing resistance
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