Denglong Chen
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View article: Hydrogen‐Bond‐Coupling Interfacial Microenvironment Enables Fast Charging of Sodium‐Ion Batteries Over a Wide Temperature Range
Hydrogen‐Bond‐Coupling Interfacial Microenvironment Enables Fast Charging of Sodium‐Ion Batteries Over a Wide Temperature Range Open
With the deepening global energy transition and expanding diversified application scenarios, developing sodium‐ion batteries with both fast‐charging capability and wide‐temperature adaptability has become urgent. However, the core challeng…
View article: Excellent Flame Retardant of Flexible Polyurethane Foams With Green Coatings by Sol–Gel Method
Excellent Flame Retardant of Flexible Polyurethane Foams With Green Coatings by Sol–Gel Method Open
In this study, a N/P/Si flame retardant was constructed via the sol–gel method with 3‐aminopropyltriethoxysilane (APTES) as a precursor, combined with guar gum (GG) and ammonium polyphosphate (APP), and filled into the pores of flexible po…
View article: Synthesis of a graft‐functionalized flame retardant based on <scp>DOPO</scp> and its application on the surface of terylene/cotton fabrics
Synthesis of a graft‐functionalized flame retardant based on <span>DOPO</span> and its application on the surface of terylene/cotton fabrics Open
Terylene/cotton (TC) fabrics are widely used in the textile industry because of their superior softness and durability. In addition, its high combustibility leads to a great safety hazard, and the droplet phenomenon during combustion is pa…
View article: Synthesis of linear poly-cardanol and its application in rubber materials
Synthesis of linear poly-cardanol and its application in rubber materials Open
People have been trying to find natural products that can replace rubber due to the land occupied by rubber planting and the environmental pollution caused by waste rubber. Herein, the linear poly-cardanol (LPCA) is obtained by undergoing …
View article: Insights into Bacterial Cellulose Biosynthesis from Different Carbon Sources and the Associated Biochemical Transformation Pathways in Komagataeibacter sp. W1
Insights into Bacterial Cellulose Biosynthesis from Different Carbon Sources and the Associated Biochemical Transformation Pathways in Komagataeibacter sp. W1 Open
Cellulose is the most abundant and widely used biopolymer on earth and can be produced by both plants and micro-organisms. Among bacterial cellulose (BC)-producing bacteria, the strains in genus Komagataeibacter have attracted wide attenti…
View article: Studies on the use of recombinant spider silk protein/polyvinyl alcohol electrospinning membrane as wound dressing
Studies on the use of recombinant spider silk protein/polyvinyl alcohol electrospinning membrane as wound dressing Open
A series of wound membranes of polyvinyl alcohol and recombinant spider silk protein (pNSR16) was prepared by electrospinning. The membrane was analyzed by scanning electron microscopy, atomic force microscopy, and Fourier transform infrar…
View article: Physicochemical characterization of high-quality bacterial cellulose produced by Komagataeibacter sp. strain W1 and identification of the associated genes in bacterial cellulose production
Physicochemical characterization of high-quality bacterial cellulose produced by Komagataeibacter sp. strain W1 and identification of the associated genes in bacterial cellulose production Open
Komagataeibactersp. W1 produced high-quality BC, the properties and synthesis mechanisms of which were analyzed by SEM, XRD and FTIR, and genome sequencing, respectively.