Multifunctional Biguanide Additive Stabilizes Chloride-Rich Quasi-2D Perovskites for Efficient and Stable Pure-Blue LEDs [0.03%]
多功能胍添加剂稳定氯化物丰富的准二维钙钛矿用于高效稳定的纯蓝色LEDs
Bufan Yu,Xingxing Duan,Zhaohui Xing et al.
Bufan Yu et al.
Quasi-2D perovskites are emerging as promising materials for light-emitting applications due to their pronounced quantum confinement effects. Blue perovskite light-emitting diodes (PeLEDs) remain fundamentally challenging yet critically dem...
Biomaterial Surface Nanotopography Induced IgG Unfolding Modulates Macrophage Innate Immune Responses [0.03%]
生物材料表面纳米拓扑结构诱导IgG变性调节巨噬细胞固有免疫反应
Markos Negash Alemie,Richard Bright,Neethu Ninan et al.
Markos Negash Alemie et al.
Implantable devices often encounter challenges related to adverse immune reactions and rejection due to poor host responses. Biomaterial surface nanotopography is known to modulate the host immune responses at cellular and molecular levels....
Correction to "Supramolecular Aggregate as a High-Efficiency Gene Carrier Mediated with Optimized Assembly Structure" [0.03%]
高效率基因载体超分子聚集体的优化组装结构的研究快报纠正文章
Yi Zhang,Junkun Duan,Lingguang Cai et al.
Yi Zhang et al.
Published Erratum
ACS applied materials & interfaces. 2025 Aug 4. DOI:10.1021/acsami.5c15119 2025
A Moiré Superlattice Induced Thermal Switch for Modulating Interfacial Heat Transfer [0.03%]
用于调节界面热传输的莫尔超晶格热开关
Yun Dong,Chunjie Zhang,Yi Tao et al.
Yun Dong et al.
We have invented a heat switch induced by a moiré superlattice for regulating interfacial thermal conductance (ITC). As twist angle increases, ITC decreases significantly, while ITC shows nonmonotonic changes with temperature. Research ind...
Positron Emission Tomography-Based Pharmacokinetics of mRNA-Lipid Nanoparticles: A Study Quantifying the ApoE and Macrophage Contribution [0.03%]
基于正电子发射断层扫描的mRNA-脂质纳米粒药代动力学研究:载脂蛋白E和巨噬细胞贡献的量化研究
Kohta Mohri,Takayuki Miyazaki,Shota Warashina et al.
Kohta Mohri et al.
It is important to clarify the pharmacokinetics of mRNA-loaded lipid nanoparticles (mRNA-LNPs), which have attracted attention as new pharmaceutical modalities for vaccines and therapeutic agents against various diseases. Positron emission ...
Empowering Polarization-Independent Fluorescence Enhancement with a C4v-Symmetry Plasmonic Nanocross Antenna Array [0.03%]
具有C4v对称性等离激元纳十字天线阵列的赋能无偏福斯发光增强
Taiping Zhang,Lingfeng Kang,Jianping Zeng et al.
Taiping Zhang et al.
Conventional bow-tie or dimer gap plasmons with C2v-symmetry are highly polarization dependent, which is unforvable in practice for unpolarized incident light sources and randomly dispersed fluorescence emitters. A nanocross configuration w...
Leonie Richarz,Ida Cathrine Skogvoll,Egil Ytterli Tokle et al.
Leonie Richarz et al.
Domain walls in ferroelectric oxides provide fertile ground for the development of next-generation nanotechnology. Examples include domain-wall-based memory, memristors, and diodes, where the unusual electronic properties and the quasi-two-...
High-Strength and Fast-Response Liquid Crystal Elastomer Fiber and Fabric Actuators [0.03%]
高强度快速响应液晶弹性体纤维和织物执行器
Yuhang Wang,Shengbo Zhou,Jianyong Feng
Yuhang Wang
LCE (liquid crystal elastomer) fibers can achieve large and reversible deformation under stimulation, which has attracted widespread attention in the field of materials. Current LCE fiber production methods include 3D/4D printing that uses ...
Symmetry-Engineered Multifunctional Hemicyanine Hole Transport Material for High Performance Blue Perovskite Light-Emitting Diodes [0.03%]
用于高性能蓝光钙钛矿发光二极管的对称性工程多功能半花青空穴传输材料
Wuyan Hou,Lichao Li,Chang Liu et al.
Wuyan Hou et al.
As an essential component in blue perovskite light-emitting diodes (PeLEDs), functionally tailored hole transport materials (HTMs) play a decisive role in reducing the hole injection barrier, mitigating interfacial defects, and thus enhanci...
Correction to "Dual-Responsive Core-Shell Tecto Dendrimers Enable Efficient Gene Editing of Cancer Cells to Boost Immune Checkpoint Blockade Therapy" [0.03%]
“双响应核壳结构嵌合树枝状聚合物实现高效基因编辑增强癌症免疫检查点阻断疗法”的更正
Junjie Liu,Gaoming Li,Honghua Guo et al.
Junjie Liu et al.
Published Erratum
ACS applied materials & interfaces. 2025 Aug 3. DOI:10.1021/acsami.5c14144 2025