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View article: Plasmon‐Ferroelectric Induced Multifield Coupling Effect Accelerates Charge Spatial Separation for Boosting Tandem Photoredox Catalysis
Plasmon‐Ferroelectric Induced Multifield Coupling Effect Accelerates Charge Spatial Separation for Boosting Tandem Photoredox Catalysis Open
Integrating solar‐driven CO 2 reduction with organic oxidation is regarded as an ideal strategy for achieving carbon neutrality. However, further enhancement of photocatalytic efficiency is persistently blocked by low photogenerated carrie…
View article: Experimental Study on the Preparation of Paste Filling Materials from Coal-Based Solid Wastes
Experimental Study on the Preparation of Paste Filling Materials from Coal-Based Solid Wastes Open
To reduce the cost of coal mine filling materials, a novel composite cementitious material was developed by utilizing coal-based solid waste materials, including fly ash, desulfurized gypsum, and carbide slag, along with cement and water a…
View article: Natural Fiber@MXene‐Engineered Chitosan Aerogels: Thermodynamic‐Transport Synergy for Solar‐Driven Hypersaline Interfacial Evaporation
Natural Fiber@MXene‐Engineered Chitosan Aerogels: Thermodynamic‐Transport Synergy for Solar‐Driven Hypersaline Interfacial Evaporation Open
Enhancing interfacial evaporation rates and optimizing energy utilization remain critical challenges in solar‐driven steam generation. Natural fiber@MXene‐engineered chitosan aerogels with hierarchically oriented channels to achieve high‐e…
View article: Catalyst‐Assisted Chemical Vapor Deposition Engineering of Hard Carbon with Abundant Closed Pores for High‐Performance Sodium‐Ion Batteries
Catalyst‐Assisted Chemical Vapor Deposition Engineering of Hard Carbon with Abundant Closed Pores for High‐Performance Sodium‐Ion Batteries Open
Hard carbon is recognized as a promising anode material for sodium‐ion batteries due to its low voltage plateau and abundant availability. However, designing advanced hard carbon anodes that exhibit both high specific capacity and high ini…
View article: Revealing the Kinetic Limitation of Na <sub>7</sub> Fe <sub>7</sub> (PO <sub>4</sub> ) <sub>6</sub> F <sub>3</sub> Polyanion Cathode with High Theoretical Capacity for Sodium‐Ion Batteries
Revealing the Kinetic Limitation of Na <sub>7</sub> Fe <sub>7</sub> (PO <sub>4</sub> ) <sub>6</sub> F <sub>3</sub> Polyanion Cathode with High Theoretical Capacity for Sodium‐Ion Batteries Open
Iron‐based sodium‐ion polyanionic materials have drawn extensive attention for developing advanced cathodes, primarily due to their abundant reserves and high safety. However, their typically low capacity impedes practical applications. He…
View article: Recent Advances in Antifreeze Peptide Preparation: A Review
Recent Advances in Antifreeze Peptide Preparation: A Review Open
Antifreeze agents play a critical role in various fields including tissue engineering, gene therapy, therapeutic protein production, and transplantation. Commonly used antifreeze agents such as DMSO and other organic substances are known t…
View article: General Stacking Theory for Altermagnetism in Bilayer Systems
General Stacking Theory for Altermagnetism in Bilayer Systems Open
Two-dimensional (2D) altermagnetism was recently proposed to be attainable in twisted antiferromagnetic bilayers providing an experimentally feasible approach to realize it in 2D materials. Nevertheless, a comprehensive understanding of th…
View article: Electronically Temperature-Dependent Interplay between He and Trivacancy in Tungsten Plasma-Facing Materials
Electronically Temperature-Dependent Interplay between He and Trivacancy in Tungsten Plasma-Facing Materials Open
Both microvoids and helium (He) impurities are widely present in tungsten (W) plasma-facing materials (PFMs), where the interaction between microvoids and He atoms has led to the intriguing development of microvoids. In this paper, we comp…
View article: Effect of vacancy defects on thermal transport properties of tungsten nitride compounds on divertor surface in ITER
Effect of vacancy defects on thermal transport properties of tungsten nitride compounds on divertor surface in ITER Open
In tokamak, tungsten nitrides (WN x ) layers that form on the divertor surface are byproducts of the nitrogen seeding system. The impact of their thermal transport properties is an important issue as they will be subjected to continuous hi…
View article: An analysis of the impact of content-generation-based AI design tools on the visual arts
An analysis of the impact of content-generation-based AI design tools on the visual arts Open
With the development of artificial intelligence, the use of generative adversarial networks in deep learning can generate good visual art based on content, and at the same time, it can reduce the problems of noisy texture, transition migra…
View article: Effect of vacancy defects on thermal transport properties of tungsten nitride compounds on divertor surface in ITER
Effect of vacancy defects on thermal transport properties of tungsten nitride compounds on divertor surface in ITER Open
In Tokomak, tungsten nitrides (WNx) films that form on the surface of the divertor are a byproduct of the nitrogen seeding system. The impact of their thermal transport properties is an important issue. Leveraging density functional theory…
View article: Microscopic mechanism of nucleation and growth of helium bubbles in monovacancy in tungsten: helium regulates the charged states of tungsten atoms
Microscopic mechanism of nucleation and growth of helium bubbles in monovacancy in tungsten: helium regulates the charged states of tungsten atoms Open
In fusion reactor, tungsten (W) has been selected as a candidate for plasma-facing materials due to its excellent properties. However, W-PFMs suffer from helium (He) bubbles where He atoms are produced during deuterium tritium fusion in fu…
View article: A First-principles analysis of Structural, Electronic, Elastic, and vacant properties of BCC, FCC and HCP tungsten at different electronic temperatures
A First-principles analysis of Structural, Electronic, Elastic, and vacant properties of BCC, FCC and HCP tungsten at different electronic temperatures Open
Since tungsten (W) was considered as the most promising plasma facing materials (PFMs) in fusion reactors, there has been extensive research on the physical performance of W-PFMs. It is found that under the extreme conditions in a fusion r…
View article: Interplay between the Edge Dislocation and Hydrogen in Tungsten at Electronically Excited States
Interplay between the Edge Dislocation and Hydrogen in Tungsten at Electronically Excited States Open
Under the continuous irradiation of high‐density and high‐energy photons from the plasma core of a fusion reactor, the plasma‐facing materials (PFMs) of tungsten (W) are in electronically excited states. How hydrogen (H) interacts with def…
View article: Electron transfer bridge inducing polarization of nitrogen molecules for enhanced photocatalytic nitrogen fixation
Electron transfer bridge inducing polarization of nitrogen molecules for enhanced photocatalytic nitrogen fixation Open
Employing rare earth metal atoms as an electron transfer bridge, directional polarization was achieved for inert nitrogen molecules, leading to a significant enhancement in photocatalytic nitrogen fixation.
View article: Interstitial hydrogen atoms in W-nitride compounds promoting the formation of atomic vacancies in nuclear fusion reactors
Interstitial hydrogen atoms in W-nitride compounds promoting the formation of atomic vacancies in nuclear fusion reactors Open
Nitrogen gas seeding has been proposed as a feasible strategy to reduce the edge plasma temperature in nuclear fusion reactors, which could cause the W-nitride compounds to form on the surface layer of the tungsten (W) first wall. Many poi…
View article: Oxygen vacancy engineering in spinel-structured nanosheet wrapped hollow polyhedra for electrochemical nitrogen fixation under ambient conditions
Oxygen vacancy engineering in spinel-structured nanosheet wrapped hollow polyhedra for electrochemical nitrogen fixation under ambient conditions Open
Electrochemical nitrogen-to-ammonia conversion under ambient conditions is realized by an oxygen vacancy-rich spinel structured materials, showing relatively high faradaic efficiency and yields.
View article: An empirical law on the finite-size effects in electronic transport calculations of tungsten
An empirical law on the finite-size effects in electronic transport calculations of tungsten Open
When the size of a supercell employed in theoretical calculations is smaller obviously than the mean free path of electrons in metals, the computed values of the electrical conductivity and the electronic thermal conductivity show a striki…