Precise Excited-State Engineering in Benzimidazole Derivatives via Donor-Acceptor Architecture for Organic Temperature-Responsive Phosphorescence [0.03%]
基于给体-受体结构的苯并咪唑衍生物精确激发态工程研究用于有机温度响应磷光
Xingda Zhang,Tianya Zhang,Yanjun Zhao et al.
Xingda Zhang et al.
Herein, we report precise excited-state engineering in benzimidazole (NBd) derivatives via a donor-acceptor (D-A) architecture for organic temperature-responsive phosphorescence (RTP). Four NBd derivatives (1-NBdCN, 1-NBdBrCN, 2-NBdCN, and ...
PolyMOF Radiosensitizers as Nanocarriers with X-Ray-Triggered Dual-Gas Release for Enhanced Radiotherapy [0.03%]
X射线触发的复合气体释放型聚类金属有机框架载药纳米载体增强放射治疗
Yufei Cao,Moujiang Zheng,Qinghao Zhou et al.
Yufei Cao et al.
The therapeutic efficacy of radiotherapy (RT) is significantly constrained by insufficient intratumoral reactive oxygen species (ROS) generation and the inherent tumor radioresistance. To overcome these limitations, we develop a novel nanop...
A Scalable Synthetic Approach for Producing Homogeneous, Large Area 2D Highly Conductive Polymers [0.03%]
一种用于制备大面积均匀二维高导电聚合物的可扩展合成方法
Luiza A Nascimento,Kilian S Fraysse,Kevin Krause et al.
Luiza A Nascimento et al.
The development of 2D materials is rapidly advancing beyond traditional graphene and metal oxides and into new functional organic materials including conducting polymers (CPs). Synthesizing 2D-CPs, typically achieved by polymerizing within ...
Chromium/Vanadium Mixed Oxide Films on Pt(111): Revealing Oxide Alloying Mechanisms in Two Dimensions [0.03%]
二维Pt(111)基底上的Cr/V氧化物合金薄膜:揭示二维氧化物合金化机制
Ghada Missaoui,Piotr Igor Wemhoff,Jacek Goniakowski et al.
Ghada Missaoui et al.
The mixing characteristics of oxide materials largely depend on the dimensionality of the system, and many oxide-alloy structures in three dimensions (3D) do not have a 2D analog. To unravel fundamental alloying mechanisms in 2D, V/Cr mixin...
Dual-Mechanism Driven Type-II FeS2/Co3S4 Heterointerface Nanozymes Overcoming Near-Physiological pH Constraints for Precision Xanthine Biosensing [0.03%]
基于双驱动机制的II型FeS2/Co3S4异质纳米酶界面催化剂用于精确诊断近生理pH条件下的黄嘌呤
Zhexu Gai,Yeping Liu,Peng Liu et al.
Zhexu Gai et al.
The development of nanozymes exhibiting high peroxidase-like activity under near-physiological pH conditions remains a critical challenge for practical biosensing applications. In this study, a Type II FeS2/Co3S4 heterostructure nanozyme ex...
Viable Regiochemical Control in Semiconducting Polymers for Field-Effect Transistors: From High-Mobility Enhancement toward High Deformability [0.03%]
用于场效应晶体管的半导体聚合物中的可行区域化学控制:从高迁移率增强到高可变形性
So-Huei Kang,Sang Myeon Lee,Kyu Cheol Lee et al.
So-Huei Kang et al.
The molecular properties of semiconducting polymers with regioisomeric structural factors can be effectively tuned based on their regiochemistry. Thus, the molecular dynamics, intermolecular stacking, and film morphology of these polymers h...
Correlating Carrier Localization to Optoelectronic Behavior of Monolayer MoS2 [0.03%]
单层二硫化钼载流子局域化及其光学行为的相关性研究
Arup Singha,Aparna P,Agniva Paul et al.
Arup Singha et al.
In nanoscale semiconductor devices, electrical conductivity is significantly influenced by inherent disorder. This study examines the electrical transport properties of a single-layer MoS2 field-effect transistor on a few-layered hBN substr...
Transforming Catalysis with Machine Learning: Emerging Tools and Next-Gen Strategies [0.03%]
利用机器学习转化催化作用——新兴工具和下一代战略
Pengxin Pu,Haisong Feng,Xin Song et al.
Pengxin Pu et al.
Catalysis plays a central role in the modern chemical industry, yet the discovery of high-performance catalysts remains constrained by traditional experimental and ab initio calculation approaches. Recently, the rapid development of machine...
From Hydrophilic to Superhydrophobic: Tuning Surface Wettability through Salvinia-Inspired Topographies [0.03%]
从亲水到超疏水:通过三槽仿生结构调控表面润湿性
Kai Liu,Marco Sorgato,Enrico Savio
Kai Liu
The development of superhydrophobic surfaces traditionally relies on combining surface roughness with low-surface-energy coatings. In contrast, this work demonstrates the use of two-photon polymerization to induce superhydrophobicity on hyd...
Structural Reconstruction of Lignocellulose toward Hard Carbons for Optimized Sodium-Ion Storage [0.03%]
木质纤维素结构重组优化钠存储硬碳材料
Wenli Zhang,Zhu Jiang,Wenbin Jian et al.
Wenli Zhang et al.
Lignocellulose-derived hard carbon has emerged as a promising anode material for commercializing sodium-ion batteries owing to the abundance and the relatively low cost of the raw materials. However, hard carbons derived from the direct car...