Effect of the Electron Transport Layer on the Interfacial Energy Barriers and Lifetime of R2R Printed Organic Solar Cell Modules [0.03%]
电子传输层对卷对卷印刷有机太阳能电池模块界面势垒和寿命的影响
Marja Vilkman,Kaisa-Leena Väisänen,Pälvi Apilo et al.
Marja Vilkman et al.
Understanding the phenomena at interfaces is crucial for producing efficient and stable flexible organic solar cell modules. Minimized energy barriers enable efficient charge transfer, and good adhesion allows mechanical and environmental s...
Oxygen Reduction Reaction Electrocatalysts Derived from Iron Salt and Benzimidazole and Aminobenzimidazole Precursors and Their Application in Microbial Fuel Cell Cathodes [0.03%]
由铁盐和苯并咪唑及氨基苯并咪唑前驱体衍生的氧气还原反应电催化剂及其在微生物燃料电池阴极中的应用
Barbara Mecheri,Rohan Gokhale,Carlo Santoro et al.
Barbara Mecheri et al.
In this work, benzimidazole (BZIM) and aminobenzimidazole (ABZIM) were used as organic-rich in nitrogen precursors during the synthesis of iron-nitrogen-carbon (Fe-N-C) based catalysts by sacrificial support method (SSM) technique. The cata...
Space-Charge Layers in All-Solid-State Batteries; Important or Negligible? [0.03%]
固态电池中的空间电荷层:重要还是可以忽略?
Niek J J de Klerk,Marnix Wagemaker
Niek J J de Klerk
All-solid state batteries have the promise to increase the safety of Li-ion batteries. A prerequisite for high-performance all-solid-state batteries is a high Li-ion conductivity through the solid electrolyte. In recent decades, several sol...
Drastic Improvement of Air Stability in an n-Type Doped Naphthalene-Diimide Polymer by Thionation [0.03%]
通过硫化大幅提高n型掺杂的萘二酰亚胺聚合物的空气稳定性
Diego Nava,Younghun Shin,Matteo Massetti et al.
Diego Nava et al.
Organic thermoelectrics are attractive for the fabrication of flexible and cost-effective thermoelectric generators (TEGs) for waste heat recovery, in particular by exploiting large-area printing of polymer conductors. Efficient TEGs requir...
In Situ Impedance Analysis of Oxygen Exchange on Growing La0.6Sr0.4CoO3-δ Thin Films [0.03%]
原位测试生长La0.6Sr0.4CoO3-δ薄膜的氧交换反应交流阻抗谱研究
Ghislain M Rupp,Markus Kubicek,Alexander K Opitz et al.
Ghislain M Rupp et al.
The further development of solid oxide fuel and electrolysis cells (SOFC/SOEC) strongly relies on research activities dealing with electrode materials. Recent studies showed that under operating conditions many perovskite-type oxide electro...
Oxidation-Induced Structure Transformation: Thin-Film Synthesis and Interface Investigations of Barium Disilicide toward Potential Photovoltaic Applications [0.03%]
氧化诱导的结构相变:巴氏二硅化物薄膜生长及界面调控向光伏应用出发的研究
Yilei Tian,Robin Vismara,Steve van Doorene et al.
Yilei Tian et al.
Barium disilicide (BaSi2) has been regarded as a promising absorber material for high-efficiency thin-film solar cells. However, it has confronted issues related to material synthesis and quality control. Here, we fabricate BaSi2 thin films...
Analysis of Diffusion in Solid-State Electrolytes through MD Simulations, Improvement of the Li-Ion Conductivity in β-Li3PS4 as an Example [0.03%]
基于分子动力学模拟的固态电解质中离子扩散行为研究——以提高β-Li3PS4的锂离子电导率为例分析
Niek J J de Klerk,Eveline van der Maas,Marnix Wagemaker
Niek J J de Klerk
Molecular dynamics simulations are a powerful tool to study diffusion processes in battery electrolyte and electrode materials. From molecular dynamics simulations, many properties relevant to diffusion can be obtained, including the diffus...
All-Organic Textile Thermoelectrics with Carbon-Nanotube-Coated n-Type Yarns [0.03%]
全有机纺织热电材料及其碳纳米管包覆的n型纱线
Jason D Ryan,Anja Lund,Anna I Hofmann et al.
Jason D Ryan et al.
Thermoelectric textiles that are able to generate electricity from heat gradients may find use as power sources for a wide range of miniature wearable electronics. To realize such thermoelectric textiles, both p- and n-type yarns are needed...
Biplab Paul,Emma M Björk,Aparabal Kumar et al.
Biplab Paul et al.
The development of high-performance and transferable thin-film thermoelectric materials is important for low-power applications, e.g., to power wearable electronics, and for on-chip cooling. Nanoporous films offer an opportunity to improve ...
Engineering Dual p-n-Type CuI with Significant Enhanced Performance for Advanced Thermoelectric Applications [0.03%]
具有显著增强性能的双p-n型CuI用于先进的热电应用工程设计
CuI is a well-known thermoelectric (TE) material recognized for its p-type characteristics. However, the development of its n-type counterpart and the integration of both p- and n-type CuI in thermoelectric generators (TEGs) remain largely ...