Enhanced Electrochemical Performance of Binder-Free Fluorine-Vanadium-Doped CoMoO4 Nanosheets via In Situ MXene Integration for Energy Storage Applications [0.03%]
通过原位MXene整合增强氟-钒掺杂的CoMoO4纳米片(无粘合剂)在储能应用中的电化学性能
Monaam Benali,Rasmita Barik,Rui Gusmão et al.
Monaam Benali et al.
Designing an affordable device that seamlessly combines efficient electrochemical energy storage with straightforward, robust protocols represents a promising pathway for ushering in the next generation of green power solutions and fosterin...
Polyethylene Glycol Surface Modification and Polythiophene Side-Chain Chemistry: A Combined Strategy toward High-Capacity Lithium-Ion Battery Anodes [0.03%]
聚乙二醇表面修饰和聚噻吩侧链化学:面向高容量锂离子电池负极的组合策略
Han Li,Haoze Ren,Armando Rodriguez Campos et al.
Han Li et al.
In the development of high-capacity lithium-ion batteries (LIBs), the combined optimization of active material interfaces and polymer binder chemistry plays a critical role in improving electrode performance and longevity. This work explore...
Insights into the Compatibility and Interphases of Li6PS5Cl and Ga-Doped Li2ZrCl6 Halide Electrolytes by Solid-State NMR [0.03%]
固态NMR研究卤化物电解质Li₂ZrCl₆:Ga与Li₆PS₅Cl的相容性和界面问题
Pedram Ghorbanzade,Arianna Pesce,Kerman Gomez et al.
Pedram Ghorbanzade et al.
Li2.1Ga0.1Zr0.9Cl6 (LGZC) halides with high ionic conductivity (>0.4 mS/cm at 25 °C) are considered promising solid electrolytes for beyond Li-ion batteries. However, they suffer from low stability against the Li metal, forming a solid ele...
Freeze-Cast Porous Textured BaTiO3-Polymer Composites for Energy Harvesting Applications [0.03%]
用于能量采集的固液低温铸造制备的BaTiO3-聚合物复合材料
Ajeet Kumar,Alex Tezcan,Zihe Li et al.
Ajeet Kumar et al.
Porous piezoelectric ceramics exhibit a unique combination of high piezoelectric charge coefficients (d ij ) and low permittivity compared to their dense counterparts, which is desirable for achieving high piezosensing and energy harvesting...
Compositional Engineering of Ti3C2T x MXene-NiMoO4 Hybrid Nanostructures for Enhanced Electrocatalytic Water Oxidation [0.03%]
用于电催化水分解的Ti3C2Tx MXene-NiMoO4杂化纳米结构的组成工程研究
Saeed Sajjadi,Thorsten Schultz,Danielle A Douglas-Henry et al.
Saeed Sajjadi et al.
A critical step in realizing the vision of green hydrogen through water splitting is to design oxygen evolution reaction (OER) catalysts that showcase a good balance of activity and stability. This work reports the compositional tuning of a...
From Zombies to Smart Devices: The Evolution of Dye-Sensitized Solar Cells for IoT Applications [0.03%]
从僵尸到智能设备:染料敏化太阳能电池在物联网应用中的演变
Kezia Sasitharan,Marina Freitag
Kezia Sasitharan
The evolution of dye-sensitized solar cells (DSCs) has been fundamentally shaped by advances in charge transport materials, with copper-based coordination complexes enabling efficient redox mediation and, uniquely, the in situ formation of ...
Can Tin Enhance the Electrocatalytic Activity of Fe-N x -C Materials toward the Oxygen Reduction Reaction? [0.03%]
添加剂素如何增强铁-氮-碳材料的氧还原反应电催化性能?
Nicolò Giulini,Mohsin Muhyuddin,Carmelo Lo Vecchio et al.
Nicolò Giulini et al.
Hydrogen fuel cells are essential for addressing the energy transition process. However, the use of expensive platinum-based electrocatalysts poses a significant challenge for large-scale commercial deployment. Although Pt appears necessary...
Formation and Discharge of Zn Sponge Anodes, Followed by Synchrotron Hard X‑ray Imaging [0.03%]
锌粉状阳极的形成与溶解及硬X射线同步辐射成像研究
Benedetto Bozzini,Nicola Sodini,Alexander P Kao et al.
Benedetto Bozzini et al.
The fabrication of engineered Zn anodes often relies on different forms of ZnO as the material in direct contact with the alkaline aqueous electrolyte in the pristine assembled cell state. Of course, in this case, the as-assembled cell is i...
Epitaxial SiGeSn Alloys for CMOS-Compatible Thermoelectric Devices [0.03%]
用于互补金属氧化物半导体兼容热电器件的外延SiGeSn合金
Patrizio Graziosi,Damiano Marian,Andrea Tomadin et al.
Patrizio Graziosi et al.
The integration of thermoelectric devices into mainstream microelectronic technological platforms could be a major breakthrough in various fields within the so-called Green-IT realm. In this article, the thermoelectric properties of heteroe...
Defect Density Analysis of WO x and MoO x Thin Films Grown by Pulsed Laser Deposition for Heterojunction Solar Cell Applications [0.03%]
用于异质结太阳能电池的WO x 和MoO x 薄膜的缺陷密度分析
Daniele Scirè,Roberto Macaluso,Mauro Mosca et al.
Daniele Scirè et al.
This study presents a comprehensive analysis of the optical and electronic properties of thin films of molybdenum oxide and tungsten oxide to implement hole-selective contact for heterojunction solar cells. These contacts are currently view...