Stepwise Crystalline Structural Transformation in 0D Hybrid Antimony Halides with Triplet Turn-on and Color-Adjustable Luminescence Switching [0.03%]
具有三重态开启动特性及可调谐发光开关的零维杂化卤素锑化合物中的逐步结晶结构转变
Jian-Qiang Zhao,Yue-Yu Ma,Xue-Jie Zhao et al.
Jian-Qiang Zhao et al.
Intelligent stimuli-responsive fluorescence materials are extremely pivotal for fabricating luminescent turn-on switching in solid-state photonic integration technology, but it remains a challenging objective for typical 3-dimensional (3D) ...
Thermopressure Coupling Effect Mimicking Natural Graphite Formation to Enhance the Storage K-Ion Performance of Carbonaceous Heterostructures [0.03%]
模拟天然石墨形成的热压耦合效应增强碳杂化材料储钾性能
Tianyi Ji,Xiaoxu Liu,Hui Wang et al.
Tianyi Ji et al.
Borrowing from natural mechanisms for material design can lead to functional mimicry and improvement. Inspired by graphite formation, a thermopressure coupling strategy under micropressure (
Halogenated Thermally Activated Delayed Fluorescence Materials for Efficient Scintillation [0.03%]
用于高效闪烁的含卤素室温延迟荧光材料
Xiao Wang,Guowei Niu,Zixing Zhou et al.
Xiao Wang et al.
Organic scintillators, materials with the ability to exhibit luminescence when exposed to X-rays, have aroused increasing interest in recent years. However, the enhancement of radioluminescence and improving X-ray absorption of organic scin...
Smart Hydrogels for Bone Reconstruction via Modulating the Microenvironment [0.03%]
通过调节微环境的用于骨重建的智能水凝胶
Weikai Chen,Hao Zhang,Qirong Zhou et al.
Weikai Chen et al.
Rapid and effective repair of injured or diseased bone defects remains a major challenge due to shortages of implants. Smart hydrogels that respond to internal and external stimuli to achieve therapeutic actions in a spatially and temporall...
Reconfigurable Vortex-like Paramagnetic Nanoparticle Swarm with Upstream Motility and High Body-length Ratio Velocity [0.03%]
一种可重构的类似涡旋的参量磁性纳米颗粒群,具有逆流运动和较高的体长比速度
Luyao Wang,Han Gao,Hongyan Sun et al.
Luyao Wang et al.
Drug delivery systems with high-targeted doses can minimize excipients, reduce side effects, and improve efficacy. Human blood circulation is a complex circulatory system, and the motion control of microrobots in the static flow field in vi...
Inflammation and Microbiota Regulation Potentiate Pneumonia Therapy by Biomimetic Bacteria and Macrophage Membrane Nanosystem [0.03%]
仿生细菌与巨噬细胞膜纳米系统的肺炎治疗作用及机制研究
Yuan Li,Xiangmei Liu,Zhenduo Cui et al.
Yuan Li et al.
While conventional nanosystems can target infected lung tissue, they cannot achieve precise cellular targeting and enhanced therapy by modulating inflammation and microbiota for effective therapy. Here, we designed a nucleus-targeted nanosy...
Metabolic Pathway of Monounsaturated Lipids Revealed by In-Depth Structural Lipidomics by Mass Spectrometry [0.03%]
基于深度结构脂质组学质谱法的单不饱和脂代谢途径研究
Simin Cheng,Donghui Zhang,Jiaxin Feng et al.
Simin Cheng et al.
The study of lipid metabolism relies on the characterization of the lipidome, which is quite complex due to the structure variations of the lipid species. New analytical tools have been developed recently for characterizing fine structures ...
Application of Internet of Things to Agriculture-The LQ-FieldPheno Platform: A High-Throughput Platform for Obtaining Crop Phenotypes in Field [0.03%]
物联网技术在农业中的应用——LQ-FieldPheno 平台:一种获得田间作物表型的高通量平台
Jiangchuan Fan,Yinglun Li,Shuan Yu et al.
Jiangchuan Fan et al.
The lack of efficient crop phenotypic measurement methods has become a bottleneck in the field of breeding and precision cultivation. However, high-throughput and accurate phenotypic measurement could accelerate the breeding and improve the...
Erratum to "Tumor Microenvironment-Specific Chemical Internalization for Enhanced Gene Therapy of Metastatic Breast Cancer" [0.03%]
转移性乳腺癌肿瘤微环境特异性化学内吞增强基因治疗的勘误通知
Yun Zhou,Mian Yu,Changjun Tie et al.
Yun Zhou et al.
Si Doping-Induced Electronic Structure Regulation of Single-Atom Fe Sites for Boosted CO2 Electroreduction at Low Overpotentials [0.03%]
低过电位下掺硅调控单原子Fe位点电子结构促进CO2电还原反应
Changsheng Cao,Shenghua Zhou,Shouwei Zuo et al.
Changsheng Cao et al.
Transition metal-based single-atom catalysts (TM-SACs) are promising alternatives to Au- and Ag-based electrocatalysts for CO production through CO2 reduction reaction. However, developing TM-SACs with high activity and selectivity at low o...