Yuhui Xie
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View article: Synergistic flame retardancy of cross-linked kraft lignin and black phosphorus on TPU: Mechanism and performance
Synergistic flame retardancy of cross-linked kraft lignin and black phosphorus on TPU: Mechanism and performance Open
View article: Improving Flame‐Retardant Properties of Poly (Lactic Acid) Composites Using Maleic Anhydride‐Modified <scp>DOPO</scp> and <scp>SiO<sub>2</sub></scp>
Improving Flame‐Retardant Properties of Poly (Lactic Acid) Composites Using Maleic Anhydride‐Modified <span>DOPO</span> and <span>SiO<sub>2</sub></span> Open
Polylactic acid (PLA) is well regarded for its excellent environmental friendliness; however, its flammability presents a significant barrier to wider applications. Developing highly flame‐retardant PLA (with a limiting oxygen index, LOI, …
View article: Coupling Coordination Analysis of Water, Energy, and Carbon Footprints for Wastewater Treatment Plants
Coupling Coordination Analysis of Water, Energy, and Carbon Footprints for Wastewater Treatment Plants Open
It is urgent for the wastewater treatment sector to respond to global climate change. Although studies related to the water–energy–carbon (WEC) nexus have been widely conducted, the application of the coupling coordination indicator is sti…
View article: Preparation of multi-colored carbon dots <i>via</i> pH-controlled degradation of wheat bran/ <i>o</i> -phenylenediamine for Fe <sup>3+</sup> ion detection
Preparation of multi-colored carbon dots <i>via</i> pH-controlled degradation of wheat bran/ <i>o</i> -phenylenediamine for Fe <sup>3+</sup> ion detection Open
Multi-color carbon dots are synthesized by simply adjusting the pH during the hydrothermal treatment of wheat bran and o -PD.
View article: Synergistic Flame Retardancy of Cross-Linked Kraft Lignin and Black Phosphorus on Tpu: Mechanism and Performance
Synergistic Flame Retardancy of Cross-Linked Kraft Lignin and Black Phosphorus on Tpu: Mechanism and Performance Open
View article: Flame-Retardant Eva Enhanced with Ionic Liquid and Functionalized Nano-Black Phosphorus for Improved Mechanical Performance
Flame-Retardant Eva Enhanced with Ionic Liquid and Functionalized Nano-Black Phosphorus for Improved Mechanical Performance Open
View article: Supercritical CO2-Foamed Hierarchically Porous PLA/PBS-Based Scaffold for Advanced Bone Regeneration
Supercritical CO2-Foamed Hierarchically Porous PLA/PBS-Based Scaffold for Advanced Bone Regeneration Open
View article: High-Performance Ni3sn2s2/Ni3s2 Anodes on Graphite Nanosheets for Sodium-Ion Batteries: A Dft-Guided Synthesis Approach
High-Performance Ni3sn2s2/Ni3s2 Anodes on Graphite Nanosheets for Sodium-Ion Batteries: A Dft-Guided Synthesis Approach Open
View article: Non-Covalently Functionalized Black Phosphorene to Efficient Flame Retardant Eva with Improved Mechanical Properties
Non-Covalently Functionalized Black Phosphorene to Efficient Flame Retardant Eva with Improved Mechanical Properties Open
View article: Carbon-Encrusted SnS <sub>2</sub> Decorated on MXene Nanosheets for Advanced Li-Ion Battery Anodes
Carbon-Encrusted SnS <sub>2</sub> Decorated on MXene Nanosheets for Advanced Li-Ion Battery Anodes Open
SnS 2 stands out as a promising lithium storage anode due to its high specific capacity, low voltage plateau, and cost-effectiveness. However, practical applications are hindered by significant limitations, including low electrical conduct…
View article: Enhancing PLA Toughness with Minimal PBAT Additives: Unveiling the Role of Phase Interface and Particle Size through In Situ Reactive Compatibilization
Enhancing PLA Toughness with Minimal PBAT Additives: Unveiling the Role of Phase Interface and Particle Size through In Situ Reactive Compatibilization Open
Polylactide (PLA) was melt blended with low amounts of poly(butylene adipate-co-terephthalate) (PBAT) using a simple reactive extrusion process herein, aiming to address the inherent brittleness of PLA without significantly compromising it…
View article: Unraveling the Fluorescent Mechanism of Biomass-Sourced Carbon Dots Based on Three Major Components: Cellulose, Lignin, and Protein
Unraveling the Fluorescent Mechanism of Biomass-Sourced Carbon Dots Based on Three Major Components: Cellulose, Lignin, and Protein Open
View article: Unraveling the Fluorescent Mechanism of Biomass-Sourced Carbon Dots Based on Three Major Components: Cellulose, Lignin, and Protein
Unraveling the Fluorescent Mechanism of Biomass-Sourced Carbon Dots Based on Three Major Components: Cellulose, Lignin, and Protein Open
View article: Construction of Polyphosphazene-Functionalized Ti3c2tx with High Efficient Flame Retardancy for Epoxy and its Synergetic Mechanisms
Construction of Polyphosphazene-Functionalized Ti3c2tx with High Efficient Flame Retardancy for Epoxy and its Synergetic Mechanisms Open
View article: Surface functionalization of carbon cloth with cobalt-porphyrin-based metal organic framework for enhanced electrochemical sensing
Surface functionalization of carbon cloth with cobalt-porphyrin-based metal organic framework for enhanced electrochemical sensing Open