Dual-Phase Regulation via a Volatile Morphology Director Enables Trap-Suppressed Organic Solar Cells with 20.6% Efficiency [0.03%]
挥发性形貌调控剂双相调控助力高效率(20.6%)无陷阱有机太阳能电池
Xin Song,Tongrui Zhang,Hongxiang Li et al.
Xin Song et al.
Immense trap densities arising from faint donor self-assembly and excessive acceptor aggregation severely restrain power conversion efficiencies (PCEs) in organic solar cells. Yet, most studies focus solely on acceptor regulation, and syner...
Molecular Surface Engineering of Sulfide Electrolytes with Enhanced Humidity Tolerance for Robust Lithium Metal All-Solid-State Batteries [0.03%]
具有增强耐湿性的硫化物电解质分子表面工程化以实现坚固的锂金属全固态电池
Laras Fadillah,Leonie Braks,Jihoon Oh et al.
Laras Fadillah et al.
Solid-state electrolytes (SSEs) enable next-generation batteries due to their intrinsic safety and compatibility with lithium (Li) metal anodes. However, many SSEs, particularly sulfide-based systems, suffer from limited electrochemical sta...
3D Chiral Perovskitoid-to-Perovskite Reconstructive Phase Transition Designed Molecular Ferroelectric Thin-Film with out-of-Plane Polarization [0.03%]
用于垂直极化的分子铁电薄膜设计:拟钙钛矿到钙钛矿的三维手性重建相变
Huan-Huan Chen,Yan Qin,Yao Zhang et al.
Huan-Huan Chen et al.
The realization of pure out-of-plane polarization in ferroelectric thin films is crucial for next-generation high-performance microelectronics and miniaturized devices. Molecular ferroelectrics, which allow facile and large-area thin-film f...
Correction to "PIP2 Alteration Caused by Elastic Modulus and Tropism of Electrospun Scaffolds Facilitates Altered BMSCs Proliferation and Differentiation" [0.03%]
弹性模量和方向性的电纺支架导致PIP2变化进而促进BMSCs增殖及分化能力的改变纠正原文:电纺支架的弹性模量和取向通过引起PIP2的变化来促进细胞行为的改变
Published Erratum
Advanced materials (Deerfield Beach, Fla.). 2025 Dec 16:e71808. DOI:10.1002/adma.71808 2025
Radiation-Resistant Aluminum Alloy for Space Missions in the Extreme Environment of the Solar System [0.03%]
一种用于太阳系极端环境载人任务的抗辐照铝锂合金研究
Patrick D Willenshofer,Matheus A Tunes,Hi T Vo et al.
Patrick D Willenshofer et al.
Future human exploration of the solar system demands advanced materials capable of withstanding extreme environments, particularly exposure to solar energetic particle radiation. Current material selection criteria for space applications pr...
Synergistic Modulation of HOMO Energy Level and Electronic Structure in Phthalates Anodes Active Materials Enables High-Performance of Li-Ion Batteries [0.03%]
调控酞酸酯阳极活性材料HOMO能级和电子结构实现高性能锂离子电池性能
Jiajun He,Yun Huang,Huihui Li et al.
Jiajun He et al.
This study employs molecular engineering to modulate HOMO levels and electronic structures, designing high-performance phthalate-based anodes (ZnPA, CaPA, CuPA) to address challenges like limited capacity and poor cycling in organic lithium...
Sub-Melt Consolidation of Aerospace-Grade Thermoplastic Composites for High-Rate Processing [0.03%]
航空航天级热塑性复合材料的亚熔化 consolidate 技术及其高速制备工艺研究
Joseph G Kirchhoff,Saeed Khaleghi,Greg Haugstad et al.
Joseph G Kirchhoff et al.
The processing of thermoplastic composites is often limited by high energy demands and slow cycle times. Out-of-autoclave amorphous/crystalline thermoplastic materials for energy-efficient aerospace-grade laminates (OATMEAL) addresses these...
Inhibition of Interregional Charge Transfer Transition in Asymmetrical Heteroatomic Framework Enables BT.2020 Deep-Blue Electroluminescence with EQE Exceeding 40 [0.03%]
非对称杂原子框架抑制的区域间电荷转移发射实现深蓝电致发光量子效率突破40%
Shu-Qi Zhang,Zhang-Li Cheng,Hao Wu et al.
Shu-Qi Zhang et al.
Multi-boron/nitrogen/oxygen (B/N/O)-embedded polyaromatics featuring the multiple resonance (MR) effect are popular photoluminescent emitters that meet the BT.2020 blue standard, while they often fail to achieve this in organic light-emitti...
Supramolecular Multivalent Synergy Enabling Harsh-Condition Phosphorescence [0.03%]
超分子多价协同增强苛刻条件下的磷光发射
Min Qi,Martina Plank,Guangqiang Yin et al.
Min Qi et al.
Organic phosphorescence, which arises from the radiative decay of triplet excitons, has garnered significant interest owing to its exceptional photophysical properties and diverse application potential. However, the intrinsically vulnerable...
Multi-Polar Order Engineering Enables Near-Ideal Efficiency in Lead-Free Energy Storage Perovskite [0.03%]
多极序工程使无铅储能钙钛矿的近理想效率成为可能
Yongbo Fan,Wanbo Qu,Ke Xu et al.
Yongbo Fan et al.
Toxic lead-based dielectrics dominate high-performance capacitors, creating urgent environmental and supply-chain challenges. Multi-polar order engineering is deployed to create an industrially scalable lead-free perovskite achieving simult...