Photoassisted Chemical Transformation of Cu2O Nanooctahedra into Cu2S Quantum-Dot Superstructures: Structural and Photoelectrochemical Properties [0.03%]
Cu2O纳_oct_结构转化为Cu2S量子点超结构的化学方法及光学性质研究
Dávid Kovács,György Z Radnóczi,Zsolt E Horváth et al.
Dávid Kovács et al.
Copper sulfides represent a broad range of chemical compounds, including naturally occurring minerals and wet-chemically synthesized nanoparticles. Tailoring the size, shape, and chemical composition of Cu2‑x S nanoparticles enables the tu...
Highly Anion Conductive Cellulose Realized by One-Step, Facile, and Effective Introduction of Ammonium and Phenyl Alkyl Groups [0.03%]
通过一步简便且有效的引入铵和苯基烷基基团实现高度阴离子导电的纤维素
Junpei Miyake
Junpei Miyake
Anion exchange membranes (AEMs) have attracted attention due to their applications in water electrolyzers, metal-air batteries, and redox flow batteries. However, developing AEMs with cost-effective and environmentally friendly methods is h...
Ultrahigh-Response Humidity Sensor Arrays Based on a Graphene/Polymer Composite for Contactless Gesture Monitoring [0.03%]
基于石墨烯/聚合物复合材料的超高灵敏度湿度传感器阵列用于非接触手势监测
Jinqi Hou,Xigang Zhu,Lu Zheng et al.
Jinqi Hou et al.
Flexible humidity sensors have attracted widespread attention for their potential applications in telemedicine, motion detection, etc. Compared with conventional humidity sensors, flexible humidity sensors have advantages in flexibility, in...
Engineering Hydroxyl Functionalization Enables Atomically Precise ZnO Nucleation on Defective Graphene [0.03%]
工程羟基化功能化实现原子级精准锌氧化物在缺陷石墨烯上的成核生长
Gaddiel Sandoval,Carlos Antonio Corona-Garcia,Jonathan Efrain Rodriguez Hueso et al.
Gaddiel Sandoval et al.
The synergy between graphene and ZnO in creating hybrid nanomaterials with novel properties of interest for the technological industry requires the development of processes and techniques that enable their precise production at the nanoscal...
Tuning Ternary Deep Eutectic Solvent Semiconductivity and Specific Capacitance Properties via Solubilizing Bacterial Nanocellulose for Flexible Soft Material [0.03%]
通过溶胶化细菌纳米纤维素调节三元深共晶溶剂半导体和比电容性质用于柔性软材料
Maurelio Cabo Jr,Samir Kattel,Dennis LaJeunesse
Maurelio Cabo Jr
Bacterial nanocellulose (BNC) shows promise in sustainable materials science, but its insolubility limits broader applications. This study introduces a ternary deep eutectic solvent (TDES) composed of Choline Chloride, Imidazole, and Tannic...
Controlling Magnetic-Field-Induced Shape Memory Response in Polycrystalline Off-Stoichiometry Fe47‑xMn24 + xGa29 Microwires [0.03%]
控制非化学计量铁磁形状记忆效应多晶微丝中的磁场诱导的形状记忆效应
Reddithota Vidyasagar,Michal Varga,Pavel Diko et al.
Reddithota Vidyasagar et al.
The ferromagnetic shape memory (FSM) behavior of glass-coated Fe47‑x Mn24+x Ga29 (x = 0-8 at. %) microwires has been investigated through temperature-dependent magnetization and ac magnetic susceptibility measurements. Magnetization measur...
Encapsulation Strategy Matters: Pre- and Post-Loading of Macromolecules into Surface-Supported Microgels Formed via Vaterite Templates [0.03%]
封装策略很重要:通过文石模板形成表面支撑微凝胶的预加载和后加载大分子机制
Deniya Joseph,Harrison Brown,Emmanuelle A B Konzi et al.
Deniya Joseph et al.
Calcium carbonate vaterite crystals have attracted increasing attention as sacrificial templates for forming polymer microgels. Vaterite's porous structure, biocompatibility, and eco-friendly synthesis make it ideal for biomedical applicati...
Structure and Morphology-Controlled Synthesis of Colloidal Ge1- x- y Si y Sn x Quantum Dots with Composition-Tunable Energy Gaps and Visible to Near-IR Optical Properties [0.03%]
结构和形貌可控合成组成可调禁带及可见到近红外光学性质的Ge1-x-ySiySnx胶体量子点
Chineme J Onukwughara,David S Pate,Yasmitha A Alahakoon et al.
Chineme J Onukwughara et al.
Ge1-x-y Si y Sn x quantum dots (QDs) are an attractive class of low-to-nontoxic and earth-abundant semiconductors exhibiting size and composition-tunable optical properties. Their electronic structure can be modified by varying elemental co...
Nano- and Microscale Chemical and Topographical Patterning of Synthetic Cell Scaffolds: from Hard to Soft Materials [0.03%]
基于纳米和微米尺度的化学及拓扑结构的人造细胞支架模式:从无机硬质材料到有机软物质基底
Laura O Williams,Teah N Tirey,Soumya Paul et al.
Laura O Williams et al.
Over the past century, a growing body of work has demonstrated that cellular behavior is impacted by contact with the materials in the surrounding environment, at length scales from centimeters down to nanometers. Soft matter (such as nativ...
Three-Dimensional COF with "the" Topology as Enzyme Host: Comparative Insights into Activity, Stability, and Reusability in Surface versus Pore Immobilization Strategies [0.03%]
具有“The”拓扑结构的三维共价有机框架作为酶载体:表面固定化与孔道限域策略在活性、稳定性及循环利用性方面的比较研究
Kohki Sasaki,Tsukasa Irie,Jin Sakai et al.
Kohki Sasaki et al.
Three-dimensional (3D) covalent organic frameworks (COFs) with high connectivity provide structurally rigid yet finely tunable scaffolds that enable precise enzyme immobilization by offering well-defined binding sites and framework stabilit...