Hongshuai Hou
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View article: Dual interface strategies using carbon dots for fabricating thermally conductive polymers by pyrrhotite and waste plastics
Dual interface strategies using carbon dots for fabricating thermally conductive polymers by pyrrhotite and waste plastics Open
View article: Comprehensive Understanding of Closed Pores in Hard Carbon Anode for High-Energy Sodium-Ion Batteries
Comprehensive Understanding of Closed Pores in Hard Carbon Anode for High-Energy Sodium-Ion Batteries Open
View article: Multicationic interactions mitigating lattice strain in sodium layered cathodes
Multicationic interactions mitigating lattice strain in sodium layered cathodes Open
View article: Improving ductility of polypropylene homopolymer by blending with ethylene copolymer and β nucleation agent
Improving ductility of polypropylene homopolymer by blending with ethylene copolymer and β nucleation agent Open
Polypropylene homopolymer (PPH) is a highly practical and widely utilized thermoplastic polymer that finds extensive applications in automotive components, piping systems, and constructed materials. Although PPH has merits such as low cost…
View article: Tailoring Electron‐Blocking and Ionic‐Transport Interface via Functional Carbon Dots for Durable Garnet‐Based Solid‐State Batteries
Tailoring Electron‐Blocking and Ionic‐Transport Interface via Functional Carbon Dots for Durable Garnet‐Based Solid‐State Batteries Open
Garnet oxides Li 6.5 La 3 Zr 1.5 Ta 0.5 O 12 (LLZTO) have been identified as highly potential solid electrolytes for solid‐state Li batteries (SSLBs). Nevertheless, existing methods for interfacial engineering fail to entirely prevent the …
View article: Synergistic Regulation of Multi‐Interface Chemistry by Functional Carbon Dots for High‐Performance Composite Solid Electrolytes
Synergistic Regulation of Multi‐Interface Chemistry by Functional Carbon Dots for High‐Performance Composite Solid Electrolytes Open
Low ionic conductivity, poor mechanical strength, and unstable interface structure are still the main factors hindering the practical application of polymer solid‐state lithium metal batteries (SSLMBs). In this work, we have developed a un…
View article: Enhanced capacitive energy storage of polyetherimide at high temperatures by integration of electrical insulation and thermal conductivity
Enhanced capacitive energy storage of polyetherimide at high temperatures by integration of electrical insulation and thermal conductivity Open
Polymer dielectrics possessing excellent electrical insulation and high thermal conductivity are pivotal for dielectric capacitors at elevated temperatures. However, the integration of electrical insulation and thermal conductivity in poly…
View article: Tunable Platform Capacity of Metal–Organic Frameworks via High-Entropy Strategy for Ultra-Fast Sodium Storage
Tunable Platform Capacity of Metal–Organic Frameworks via High-Entropy Strategy for Ultra-Fast Sodium Storage Open
View article: Anion Vacancies Coupling with Heterostructures Enable Advanced Aerogel Cathode for Ultrafast Aqueous Zinc‐Ion Storage
Anion Vacancies Coupling with Heterostructures Enable Advanced Aerogel Cathode for Ultrafast Aqueous Zinc‐Ion Storage Open
As a potential cathode material, manganese‐based sulfide has recently attracted increasing interest due to its many advantages in aqueous zinc‐ion storage. Unfortunately, some challenges such as sluggish kinetics, unstable structure, and c…
View article: Gliding Arc Plasma Excitation on the Atomization Performance of Pre-Combustion Injector in Multi-Swirl Combustor
Gliding Arc Plasma Excitation on the Atomization Performance of Pre-Combustion Injector in Multi-Swirl Combustor Open
View article: Axial fluorine coordination boosts the activity and durability of Fe single-atom catalysts in room-temperature Na–S batteries
Axial fluorine coordination boosts the activity and durability of Fe single-atom catalysts in room-temperature Na–S batteries Open
Single-atom catalysts (SACs) hold promise for addressing challenges of polysulfide shuttle and sluggish sulfur reduction reaction (SRR) in room-temperature (RT) Na–S batteries.
View article: Biomass-derived carbon dots: synthesis, modification and application in batteries
Biomass-derived carbon dots: synthesis, modification and application in batteries Open
The review aims to offer a comprehensive overview of the advancements made in harnessing BCDs for electrochemical energy storage applications.
View article: Entropy-Driven Disordered Solvation Sheath Configurations for High Voltage Aqueous Electrolytes
Entropy-Driven Disordered Solvation Sheath Configurations for High Voltage Aqueous Electrolytes Open
View article: Unraveling the origin of enhanced safety in capacitive-type carbon electrodes for 20C sodium-ion capacitors
Unraveling the origin of enhanced safety in capacitive-type carbon electrodes for 20C sodium-ion capacitors Open
This paper reports the synthesis of capacitive soft carbon through in situ phosphorus crosslinking strategies applied to coal tar, with the resulting material exhibiting a high tap density of 1.26 g cm −3 .
View article: Revealing Electrochemical Process of Functional Carbon Dots Stabilized Sodium Metal Anode: Co‐Deposition and Strengthened SEI Films
Revealing Electrochemical Process of Functional Carbon Dots Stabilized Sodium Metal Anode: Co‐Deposition and Strengthened SEI Films Open
Sodium metal batteries with high theoretical energy density and low redox potential possess vast application prospects. However, the inevitable side reactions between Na metal anode and electrolyte, the formation of Na dendrite during cycl…
View article: High-Entropy Electrode Materials: Synthesis, Properties and Outlook
High-Entropy Electrode Materials: Synthesis, Properties and Outlook Open
High-entropy materials represent a new category of high-performance materials, first proposed in 2004 and extensively investigated by researchers over the past two decades. The definition of high-entropy materials has continuously evolved.…
View article: Negative Charge Carbon Dots Manufacturing Electrostatic Shielding Layer for Stable Zinc Anode
Negative Charge Carbon Dots Manufacturing Electrostatic Shielding Layer for Stable Zinc Anode Open
Alkaline zinc‐based batteries (AZBs) can yield higher operating voltages due to a more negative electrode potential of zinc metal in alkaline electrolytes compared with neutral electrolytes, delivering high energy density in practical manu…
View article: Multivalent Cation Incorporated into Manganese‐Iron Based NASICON Cathodes for High Voltage Sodium‐Ion Batteries
Multivalent Cation Incorporated into Manganese‐Iron Based NASICON Cathodes for High Voltage Sodium‐Ion Batteries Open
Na 4 Mn 1.5 Fe 1.5 (PO 4 ) 2 P 2 O 7 (NMFPP), with its low cost and high energy density, is essential for accelerating the commercialization of sodium‐ion batteries. However, its practical application is limited by serious voltage hysteres…
View article: Approaching Splendid Catalysts for Li–CO<sub>2</sub> Battery from the Theory to Practical Designing: A Review
Approaching Splendid Catalysts for Li–CO<sub>2</sub> Battery from the Theory to Practical Designing: A Review Open
Lithium carbon dioxide (Li–CO 2 ) batteries, noted for their high discharge voltage of approximately 2.8 V and substantial theoretical specific energy of 1876 Wh kg −1 , represent a promising avenue for new energy sources and CO 2 emission…
View article: Spatial configuration of interlayer maximizing suppression and conversion efficiency of lithium polysulfides for advanced lithium–sulfur batteries
Spatial configuration of interlayer maximizing suppression and conversion efficiency of lithium polysulfides for advanced lithium–sulfur batteries Open
Shuttle effect of polysulfides and sluggish redox kinetics of sulfur are two tricky problems in lithium-sulfur (Li-S) batteries. Engineering interlayer between sulfur cathode and separator is an innovative approach to alleviate these weakn…
View article: Controllable Dual-Substitution Engineering Enable High Stability P2-Type Mn-Rich Cathodes Under High Voltage
Controllable Dual-Substitution Engineering Enable High Stability P2-Type Mn-Rich Cathodes Under High Voltage Open
View article: Local Charge Redistribution Enables Single Ionic Conductor for Fast Charge Solid Li Battery
Local Charge Redistribution Enables Single Ionic Conductor for Fast Charge Solid Li Battery Open
View article: Facile Cobalt Coordination Imprinted Schiff-Base Polymer Derived Co, N-Doped Carbon Material Boosts Oxygen Reduction Reaction
Facile Cobalt Coordination Imprinted Schiff-Base Polymer Derived Co, N-Doped Carbon Material Boosts Oxygen Reduction Reaction Open
View article: Boosting the interfacial dynamics and thermodynamics in polyanion cathode by carbon dots for ultrafast-charging sodium ion batteries
Boosting the interfacial dynamics and thermodynamics in polyanion cathode by carbon dots for ultrafast-charging sodium ion batteries Open
An interfacial dynamics and thermodynamics synergistic strategy is proposed to synchronously enhance the fast-charging capability of polyanion cathode materials for SIBs, and the designed NVP/NSC cathode exhibits excellent performance at 1…
View article: Heterostructured flower‐like NiO/Co<sub>3</sub>O<sub>4</sub> microspheres modified by bifunctional carbon quantum dots as a battery‐type cathode for high energy and power density hybrid supercapacitors
Heterostructured flower‐like NiO/Co<sub>3</sub>O<sub>4</sub> microspheres modified by bifunctional carbon quantum dots as a battery‐type cathode for high energy and power density hybrid supercapacitors Open
Hybrid supercapacitors (HSCs) comprising a battery‐type cathode and capacitive anode have recently become a research hotspot. Nevertheless, the low capacity utilization, poor kinetic behavior, and unstable structure of a single battery‐typ…
View article: Electrochemistry Enabled Heterostructure with High Tap Density for Ultrahigh Power Na‐Ion Capacitors
Electrochemistry Enabled Heterostructure with High Tap Density for Ultrahigh Power Na‐Ion Capacitors Open
Developing electrode materials with high tap density, low cost, and superior performance poses a formidable challenge in electrochemistry. The impressive performance exhibited by most electrodes comes at the expense of tap density and cost…
View article: Conclusions and Future Perspective
Conclusions and Future Perspective Open
Sodium-ion capacitors (SICs) consisting of a battery-type electrode and a capacitor-type electrode can achieve excellent electrochemical performances with large energy density, high power density, and long cycle life. However, the developm…
View article: Introduction
Introduction Open
In the past few decades, lithium-ion batteries have developed rapidly in the field of energy storage. However, due to the increasing demand for high-power devices in daily life, the idea of combining the advantages of capacitors with batte…
View article: Constructing Rich Interfacial Structure by Carbon Dots to Improve the Sodium Storage Capacity of Sb/C Composite
Constructing Rich Interfacial Structure by Carbon Dots to Improve the Sodium Storage Capacity of Sb/C Composite Open
Designing Sb/carbon composite is an effective strategy to enhance the cycle stability and rate capability of Sb anodes for sodium ion batteries. However, the introduction of carbon often leads to a loss in specific capacity and initial Cou…
View article: Enabling Structure/Interface Regulation for High Performance Ni‐Rich Cathodes
Enabling Structure/Interface Regulation for High Performance Ni‐Rich Cathodes Open
Further commercialization of Ni‐rich layered cathodes is hindered by severe structure/interface degradation and kinetic hindrance that occur during electrochemical operation, which leads to safety risks and reduced range in electric vehicl…