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View article: Activation Mechanism of Water Dissociation for Catalytic Hydrogen Production: Insights from First-Principles Molecular Dynamics Simulation
Activation Mechanism of Water Dissociation for Catalytic Hydrogen Production: Insights from First-Principles Molecular Dynamics Simulation Open
One of the most challenging issues in catalytic water dissociation hydrogen production technology is understanding the activation mechanism of water. To gain insights into this process, a first-principles molecular dynamics method was used…
View article: Differentiated Ionic Electroresponse of Asymmetric Bio‐Hydrogels with Unremitting Power Output
Differentiated Ionic Electroresponse of Asymmetric Bio‐Hydrogels with Unremitting Power Output Open
Cytomembranes with efficient ionic selectivity and energy circulation, essential for biological activities in multicellular organisms, are a source of inspiration for man‐made biomedical devices. However, current man‐made soft systems main…
View article: Enhanced Thermal Conductivity in Oriented Polyvinyl Alcohol/Graphene Oxide Composites
Enhanced Thermal Conductivity in Oriented Polyvinyl Alcohol/Graphene Oxide Composites Open
Polymer composites have attracted increasing interest as thermal management materials for use in devices owing to their ease of processing and potential lower costs. However, most polymer composites have only modest thermal conductivities,…
View article: NIR–vis–UV Light‐Responsive High Stress‐Generating Polymer Actuators with a Reduced Creep Rate
NIR–vis–UV Light‐Responsive High Stress‐Generating Polymer Actuators with a Reduced Creep Rate Open
Untethered, light‐responsive, high‐stress‐generating actuators based on widely‐used commercial polymers are appealing for applications in soft robotics. However, the construction of actuators that are stable and reversibly responsive to lo…
View article: 3D Anisotropic Polyethylene as Light‐Responsive Grippers and Surfing Divers
3D Anisotropic Polyethylene as Light‐Responsive Grippers and Surfing Divers Open
Untethered soft actuators are usually based on 3D engineered special polymers such as liquid crystal networks or hydrogels that require complex fabrication methods. Here, an easy‐to‐process, anisotropic composite soft actuator based on a s…
View article: High Thermal Conductivity in Anisotropic Aligned Polymeric Materials
High Thermal Conductivity in Anisotropic Aligned Polymeric Materials Open
Because of their low density, high electrical resistivity, and ease of processing, thermally conductive, anisotropic polymers are appealing for thermal management in applications related to personal comfort, sports, electronics, and optics…
View article: The Role of Polyethylene Wax on the Thermal Conductivity of Transparent Ultradrawn Polyethylene Films
The Role of Polyethylene Wax on the Thermal Conductivity of Transparent Ultradrawn Polyethylene Films Open
Transparency and thermal conductivity of ultradrawn, ultrahigh-molecular-weight polyethylene films containing different contents of low-molecular-weight polyethylene wax (PEwax) are explored from experimental and theoretical viewpoints. It…
View article: Programmable liquid crystal elastomer microactuators prepared <i>via</i> thiol–ene dispersion polymerization
Programmable liquid crystal elastomer microactuators prepared <i>via</i> thiol–ene dispersion polymerization Open
Programmable, narrowly dispersed, 10 micron-sized, liquid crystalline elastomer actuators were first prepared via thiol–ene dispersion polymerization and then deformed in a PVA film, followed by photopolymerization of the residual acrylate…
View article: Transparent, High‐Thermal‐Conductivity Ultradrawn Polyethylene/Graphene Nanocomposite Films
Transparent, High‐Thermal‐Conductivity Ultradrawn Polyethylene/Graphene Nanocomposite Films Open
Transparent, ultradrawn, ultrahigh molecular weight polyethylene (UHMWPE)/graphene nanocomposite films with a high thermal conductivity are successfully fabricated by solution‐casting and solid‐state drawing. It is found that the low optic…
View article: Temperature‐ and Light‐Regulated Gas Transport in a Liquid Crystal Polymer Network
Temperature‐ and Light‐Regulated Gas Transport in a Liquid Crystal Polymer Network Open
Azobenzene‐containing liquid crystal polymer networks (LCNs) are developed for temperature‐ and light‐regulated gas permeation. The order in a chiral‐nematic LCN (LCN*) is found to be essential to couple the unique structure of the membran…
View article: Effective enhancement of gas separation performance in mixed matrix membranes using core/shell structured multi-walled carbon nanotube/graphene oxide nanoribbons
Effective enhancement of gas separation performance in mixed matrix membranes using core/shell structured multi-walled carbon nanotube/graphene oxide nanoribbons Open
Novel core/shell structured multi-walled carbon nanotube/graphene oxide nanoribbons (MWCNT@GONRs) nanohybrids were successfully prepared using a modified chemical longitudinal unzipping method. Subsequently, the MWCNT@GONRs nanohybrids wer…