Jinchuan Zhao
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View article: Constructing Multi‐Interfaced and Vacancy‐Rich Cu<sub>1.8</sub>S/rGO/Oleylamine Composites Toward Anti‐Biofouling Microwave Absorption
Constructing Multi‐Interfaced and Vacancy‐Rich Cu<sub>1.8</sub>S/rGO/Oleylamine Composites Toward Anti‐Biofouling Microwave Absorption Open
Anti‐biofouling performance plays a critical role for marine application of microwave absorption materials (MAMs) to maintain their stable and durable absorption capacity. However, anti‐biofouling properties are generally ignored by tradit…
View article: Nanoengineering of Ultrathin Carbon-Coated T-Nb2O5 Nanosheets for High-Performance Lithium Storage
Nanoengineering of Ultrathin Carbon-Coated T-Nb2O5 Nanosheets for High-Performance Lithium Storage Open
Niobium pentoxide (Nb2O5) is a promising anode candidate for lithium-ion batteries due to its high theoretical capacity, excellent rate capability, and safe working potential. However, its inherent low conductivity limits its practical app…
View article: Array structured NiAl-layered double hydroxides grown on graphene by atomic layer deposition as chloride-ion battery cathode
Array structured NiAl-layered double hydroxides grown on graphene by atomic layer deposition as chloride-ion battery cathode Open
View article: Carbon Nanocage‐in‐Microcage Structure With Tunable Carbon‐Coated Nickel as a Microwave Absorber With Infrared Stealth Property
Carbon Nanocage‐in‐Microcage Structure With Tunable Carbon‐Coated Nickel as a Microwave Absorber With Infrared Stealth Property Open
The rational design of microwave absorption (MA) material featuring light weight, wide absorption bandwidth, and infrared stealth property is crucial for military stealth and health protection but remains challenging. Herein, an innovative…
View article: Wearable EMI Shielding Composite Films with Integrated Optimization of Electrical Safety, Biosafety and Thermal Safety
Wearable EMI Shielding Composite Films with Integrated Optimization of Electrical Safety, Biosafety and Thermal Safety Open
Biomaterial‐based flexible electromagnetic interference (EMI) shielding composite films are desirable in many applications of wearable electronic devices. However, much research focuses on improving the EMI shielding performance of materia…
View article: Microwave-Absorbing Foams with Adjustable Absorption Frequency and Structural Coloration
Microwave-Absorbing Foams with Adjustable Absorption Frequency and Structural Coloration Open
Microwave-absorbing materials with regulatable absorption frequency and optical camouflage hold great significance in intelligent electronic devices and advanced stealth technology. Herein, we present an innovative microwave-absorbing foam…
View article: Super‐Elastic and Dimensionally Stable Polyether Block Amide Foams Fabricated by Microcellular Foaming with CO<sub>2</sub>&N<sub>2</sub> as Co‐Blowing Agents
Super‐Elastic and Dimensionally Stable Polyether Block Amide Foams Fabricated by Microcellular Foaming with CO<sub>2</sub>&N<sub>2</sub> as Co‐Blowing Agents Open
Polyether block amide (PEBA) is an important thermoplastic polyester elastomer (TPE) owing to its low density and high resilience. Microcellular foaming can endow PEBA with significant potential in sports, medical, and industrial applicati…
View article: Regulating Cerium Location in Y Zeolite and its Influence on Adsorptive Desulfurization for Thiophene in Benzene
Regulating Cerium Location in Y Zeolite and its Influence on Adsorptive Desulfurization for Thiophene in Benzene Open
View article: Ni‐Carbon Microtube/Polytetrafluoroethylene as Flexible Electrothermal Microwave Absorbers
Ni‐Carbon Microtube/Polytetrafluoroethylene as Flexible Electrothermal Microwave Absorbers Open
Flexible microwave absorbers with Joule heating performance are urgently desired to meet the demands of extreme service environments. Herein, a type of flexible composite film is constructed by homogeneously dispersing a hierarchical Ni‐ca…
View article: High-elastic and strong hexamethylene diisocyanate (HDI)-based thermoplastic polyurethane foams derived by microcellular foaming with co-blowing agents
High-elastic and strong hexamethylene diisocyanate (HDI)-based thermoplastic polyurethane foams derived by microcellular foaming with co-blowing agents Open
Thermoplastic polyurethane (TPU) foams have exhibited promising prospect in many industries such as automobile, sportswear and packaging, due to their outstanding mechanical properties. However, the application of TPU foams prepared by mic…
View article: Mechanically strong and heat-resistant waste poly (ethylene terephthalate) derived by carbon dioxide treatment at ambient temperature
Mechanically strong and heat-resistant waste poly (ethylene terephthalate) derived by carbon dioxide treatment at ambient temperature Open
Due to the ever-increasing consumption of poly (ethylene terephthalate) (PET) for the industries of packaging and electronics, the waste non-degradable PET has brought serious ecological pollution. However, the current recovery rate of was…
View article: Corrugated thermoplastic polyurethane foams with high mechanical strength fabricated by integrating fused filament fabrication and microcellular foaming using supercritical CO2
Corrugated thermoplastic polyurethane foams with high mechanical strength fabricated by integrating fused filament fabrication and microcellular foaming using supercritical CO2 Open
Thermoplastic polyurethane (TPU) has been widely implemented in many fields due to its good elasticity. Microcellular foaming not only can achieve weight reduction, but also can enhance the elasticity of TPU products. However, the enhancem…
View article: Strong and flame-retardant thermally insulating poly(vinylidene fluoride) foams fabricated by microcellular foaming
Strong and flame-retardant thermally insulating poly(vinylidene fluoride) foams fabricated by microcellular foaming Open
Thermally insulating polymer foams are instrumental in conserving energy and reducing peak carbon dioxide emissions owing to their light weight, environmental friendliness, and ease of processing. However, as most polymers are organic and …
View article: Strong PP/PTFE microfibril reinforced composites achieved by enhanced crystallization under CO2 environment
Strong PP/PTFE microfibril reinforced composites achieved by enhanced crystallization under CO2 environment Open
View article: Lightweight and strong polypropylene/talc/polytetrafluoroethylene foams with enhanced flame-retardant performance fabricated by microcellular foam injection foaming
Lightweight and strong polypropylene/talc/polytetrafluoroethylene foams with enhanced flame-retardant performance fabricated by microcellular foam injection foaming Open
View article: Ultra-Tough and Strong Pla Nanocomposites Reinforced by Uv-Crosslinked In-Situ Epdm Nanofibrils with Outstanding Foaming and Thermally-Insulating Performance
Ultra-Tough and Strong Pla Nanocomposites Reinforced by Uv-Crosslinked In-Situ Epdm Nanofibrils with Outstanding Foaming and Thermally-Insulating Performance Open
View article: Enhanced Foaming Behavior and Foam Mechanical Properties of Pmma by Compounding with Miscible Pla
Enhanced Foaming Behavior and Foam Mechanical Properties of Pmma by Compounding with Miscible Pla Open
View article: Fibrosis mechanism, crystallization behavior and mechanical properties of in-situ fibrillary PTFE reinforced PP composites
Fibrosis mechanism, crystallization behavior and mechanical properties of in-situ fibrillary PTFE reinforced PP composites Open
In-situ fibrillary PTFE was usually developed by melt blending to enhance the melt strength and processability of PP. However, the fibrosis mechanism and the morphology evolution of PTFE during in-situ fibrillation process is still unclear…
View article: Lightweight and strong glass fiber reinforced polypropylene composite foams achieved by mold-opening microcellular injection molding
Lightweight and strong glass fiber reinforced polypropylene composite foams achieved by mold-opening microcellular injection molding Open
Microcellular injection molding (MIM) is a flexible, efficient, and environmentally friendly foaming technology to prepare plastic foams with complex shapes. However, MIM product suffers from deteriorated mechanical properties, limited wei…
View article: Poly(ether‐block‐amide) membrane with deformability and adjustable surface hydrophilicity for water purification
Poly(ether‐block‐amide) membrane with deformability and adjustable surface hydrophilicity for water purification Open
Freshwater resources are currently insufficient, and another form of freshwater resources, namely, ice, is very interesting except for the issue of how to use new materials for effective purification during the processing procedure. In thi…
View article: Ultra-Elastic and Super-Insulating Biomass PEBA Nanoporous Foams Achieved by Combining In-Situ Fibrillation with Microcellular Foaming
Ultra-Elastic and Super-Insulating Biomass PEBA Nanoporous Foams Achieved by Combining In-Situ Fibrillation with Microcellular Foaming Open
View article: Ultra-Tough and Strong Pla Nanocomposites Reinforced by Uv-Crosslinked In-Situ Epdm Nanofibrils with Outstanding Foaming and Thermally-Insulating Performance
Ultra-Tough and Strong Pla Nanocomposites Reinforced by Uv-Crosslinked In-Situ Epdm Nanofibrils with Outstanding Foaming and Thermally-Insulating Performance Open
View article: Lightweight and Strong Pp/Talc/Ptfe Foams with Enhanced Flame-Resistant Performance Fabricated by Microcellular Foam Injection Foaming
Lightweight and Strong Pp/Talc/Ptfe Foams with Enhanced Flame-Resistant Performance Fabricated by Microcellular Foam Injection Foaming Open
View article: Mechanical and EMI shielding properties of solid and microcellular TPU/nanographite composite membranes
Mechanical and EMI shielding properties of solid and microcellular TPU/nanographite composite membranes Open
Tough, flexible, and conductive polymer composites show numerous advantages over conventional metal-based materials for EMI shielding applications, for example, in enclosures and packages of electronic devices, due to their low density, hi…
View article: Lightweight and tough PP/talc composite foam with bimodal nanoporous structure achieved by microcellular injection molding
Lightweight and tough PP/talc composite foam with bimodal nanoporous structure achieved by microcellular injection molding Open
View article: rGO/Fe<sub>3</sub>O<sub>4</sub> hybrid induced ultra-efficient EMI shielding performance of phenolic-based carbon foam
rGO/Fe<sub>3</sub>O<sub>4</sub> hybrid induced ultra-efficient EMI shielding performance of phenolic-based carbon foam Open
Phenolic-based carbon foam with ultra-efficient EMI shielding performance was achieved by incorporating rGO/Fe3O4 hybrid.
View article: Correction: Modelling of thermal transport through a nanocellular polymer foam: toward the generation of a new superinsulating material
Correction: Modelling of thermal transport through a nanocellular polymer foam: toward the generation of a new superinsulating material Open
Correction for ‘Modelling of thermal transport through a nanocellular polymer foam: toward the generation of a new superinsulating material’ by Guilong Wang et al., Nanoscale, 2017, 9, 5996–6009.