The Efficient and Stable Triboelectric Nanogenerator Materials Based on Electrostatic Attraction Between Biomass and Metal Oxides for UAV Flight Control [0.03%]
一种基于生物质与金属氧化物静电吸引效应的高效且稳定的摩擦纳米发电机材料用于无人机飞行控制
Kaiyuan Zheng,Lili Wang,Xiaofan Zhang et al.
Kaiyuan Zheng et al.
Biomass-based triboelectric nanogenerators (TENGs) have attracted attention in the fields of biomedical and wearable electronics. This study formed three stable frictional electric films, namely chitosan quaternary ammonium salt(CQAS)/Sc2O3...
Phosphine Interlayer Chemical Hardness Engineering via Crystallization Regulation for Wide-Bandgap Perovskites and All-Perovskite Tandems [0.03%]
通过结晶调节的膦介导层化学硬度工程实现宽禁带钙钛矿及全钙钛矿叠层太阳能电池
Shujing Zhou,Ruijia Tian,Kexuan Sun et al.
Shujing Zhou et al.
In wide-bandgap perovskite solar cells, light-induced phase segregation of the perovskite film and non-radiative recombination at the self-assembled monolayers/perovskite interface severely compromise device efficiency and stability. Herein...
Choline Ionic Liquid for Long-Term Stable Organic Electrochemical Transistors [0.03%]
用于长期稳定有机电化学晶体管的胆碱离子液
Young Jin Jo,Yeong-Sinn Ye,Sungbin Choi et al.
Young Jin Jo et al.
A choline-based ionic liquid is introduced into organic electrochemical transistors(OECTs) to achieve enhanced performance and long-term stability, and these OECTs can be used for sensing biological signals such as electrocardiograms (ECGs)...
Wafer-Scale Synthesis of V2O5 Single Crystals for Ultrahigh Doping of 2D Materials [0.03%]
用于二维材料超掺杂的V2O5单晶的大规模合成
Yaqi Zhu,Xiaohui Chen,Saiyu Bu et al.
Yaqi Zhu et al.
The controllable growth of wafer-scale single-crystalline 2D materials is foundational for future electronic and photonic applications. Layer-by-layer integration enables the fabrication of 2D heterostructure with multiple functionalities, ...
Cation-Mediated Low-Frequency Phonon Suppression in Lead-free Manganese Halides for High-efficiency Green Light-emitting Diodes [0.03%]
阳离子调控无铅锰卤化物低频声子抑制实现高效率绿色发光二极管
Bing Han,Yizhao Qing,Runnan Yu et al.
Bing Han et al.
Lead halide perovskites (LHPs) have emerged as promising materials in optoelectronics, yet concerns over lead toxicity drive the search for lead-free alternatives with efficient electroluminescence, especially in green-emitting applications...
Correction to "Supramolecular Lipid Nanoparticles Based on Host-Guest Recognition: A New Generation Delivery System of mRNA Vaccines For Cancer Immunotherapy" [0.03%]
关于“基于主客体识别的超分子脂质纳米粒:癌症免疫治疗mRNA疫苗新一代递送系统”的更正通知
Published Erratum
Advanced materials (Deerfield Beach, Fla.). 2025 Oct 9:e17552. DOI:10.1002/adma.202517552 2025
Polymerized Melamine Catalyzes Direct I-/I2 Conversion via ─N═N─ Motif for HighCapacity Zn-I2 Batteries [0.03%]
基于―N═N―配位模式的聚氨基甲酸酯催化Zn-I2电池中高效I-到I3-转化反应
Yueyang Wang,Yanan Lv,Shiqiang Wei et al.
Yueyang Wang et al.
To fundamentally solve low iodine conversion efficiency and severe polyiodide shuttling, a high-performance catalytic organic cathode is developed by in situ polymerizing melamine (MA) on activated carbon (denoted as pMA@AC) for high-capaci...
Yarong Gu,Xinyu Zhang,Ziqing Li et al.
Yarong Gu et al.
Circularly polarized (CP) photodetection has become a cornerstone technology in advancing fields such as quantum communication, biomedical imaging, and secure optical encryption. Conventional CP photodetectors relying on external optical co...
Thermally Drawn Multifunctional All-Hydrogel Fibers for Anti-Fibrotic and Multimodal Neural Interfaces [0.03%]
用于抗纤维化和多模式神经接口的热拉多功能全水凝胶纤维
Changhoon Sung,Kum Seok Nam,Yeji Kim et al.
Changhoon Sung et al.
Hydrogels have emerged as promising materials for anti-fibrotic neural interfaces due to their mechanical and chemical similarity to biological tissue. However, their use in multimodal platforms remains limited, owing to fabrication challen...
Shear-Catalyzed Vacancy Engineering Enabling Rapid Synthesis of High-Crystallinity Magnetite via Microfluidic Ferrous Oxidation [0.03%]
剪切催化空位工程介导的微流体快速合成高结晶磁铁石铁离子氧化物粉体技术
Yue Wang,Rui Huang,Qian Xu et al.
Yue Wang et al.
Iron oxides are widely used in environmental and energy applications, with magnetite particularly favored for its excellent crystallinity and strong magnetic properties. However, synthesizing well-crystalline magnetite typically requires lo...