A Review of Nanowire Devices Applied in Simulating Neuromorphic Computing [0.03%]
纳米线器件在模拟神经形态计算中的应用述评
Tianci Huang,Yuxuan Wang,Zhihan Jin et al.
Tianci Huang et al.
With the rapid advancement of artificial intelligence and machine learning technologies, the demand for enhanced device computing capabilities has significantly increased. Neuromorphic computing, an emerging computational paradigm inspired ...
A Complete Energy Model for Graphene Flake Growth with the Fewest Possible Dangling Bonds [0.03%]
具有最少悬键的石墨烯碎片生长的完整能量模型
Ivan G Grozev,Dobromir A Kalchevski,Dimitar V Trifonov et al.
Ivan G Grozev et al.
This work presents a complete energy model for graphene flakes' growth with the fewest possible dangling bonds. The model is based on a simple equation that describes the binding energy of graphene flakes consisting of up to 10,000 carbon a...
The Role of the Surface Functionalities in the Electrocatalytic Activity of Cytochrome C on Graphene-Based Materials [0.03%]
关于细胞色素C在石墨烯基材料表面电催化的活性与官能团的关系研究
Andrés Felipe Quintero-Jaime,Diego Cazorla-Amorós,Emilia Morallón
Andrés Felipe Quintero-Jaime
The development of efficient electron transfer between enzymatic elements and the electrode is considered an important issue in the synthesis and design of bioelectrochemical devices. In this regard, the modification of the surface properti...
Muhammad Abdullah,Mergen Zhazitov,Nazerke Kydyrbay et al.
Muhammad Abdullah et al.
This study presents the synthesis, characterization, and evaluation of stearic-acid-coated sand (SACS) as a superhydrophobic material for agricultural water management applications. The fabrication process involves coating silica sand parti...
Doping Characteristics and Band Engineering of InSe for Advanced Photodetectors: A DFT Study [0.03%]
基于密度泛函理论的InSe掺杂特性和能带工程及其在先进光探测器中的应用研究
Wenkai Zhang,Yafei Ning,Hu Li et al.
Wenkai Zhang et al.
Two-dimensional materials have emerged as core components for next-generation optoelectronic devices due to their quantum confinement effects and tunable electronic properties. Indium selenide (InSe) demonstrates breakthrough photoelectric ...
Relation Between Thickness and TFTs Properties of HfO2 Dielectric Layer Synthesized by Plasma-Enhanced Atomic Layer Deposition [0.03%]
等离子增强原子层沉积制备的HfO2介电层厚度与TFT器件物性关系的研究
Qizhen Chen,Wanqiang Fu,Jing Han et al.
Qizhen Chen et al.
The advancement of portable high-definition organic light-emitting diode (OLED) displays necessitates thin film transistors (TFTs) with low power consumption and high pixel density. Amorphous indium gallium zinc oxide (a-IGZO) TFTs are prom...
An Innovative Strategy for Achieving Interface Gradient Material Using Co-Deposition Technology [0.03%]
一种利用协同沉积技术实现界面梯度材料的新策略
Yanxin Zhang,Liyan Lai,Yan Luo et al.
Yanxin Zhang et al.
In this study, high-performance SiC whisker (SiCw)-reinforced Cu matrix functionally graded materials (FGMs) were achieved through the synergy of numerical simulation and co-electrodeposition and then successfully applied as the interface o...
Pr3+-Activated Sr2LaF7 Nanoparticles as a Single-Phase White-Light-Emitting Nanophosphor [0.03%]
单相白光发射纳米磷光体的Pr3+-激活Sr2LaF7纳米颗粒
Bojana Milićević,Aleksandar Ćirić,Katarina Milenković et al.
Bojana Milićević et al.
Sr2LaF7:xPr3+ (x = 0.2, 1, 2, 3, 5, 10, and 25 mol%) nanophosphors with a cubic Fm3m structure were hydrothermally synthesized, forming nearly spherical nanoparticles with an average diameter of approximately 32 nm. Diffuse reflectance meas...
Proliferation of Human Cervical Cancer Cells Responds to Surface Properties of Bicomponent Polymer Coatings [0.03%]
生物双组分聚合物涂层的表面性质影响人宫颈癌细胞的增值行为研究
Emil Rosqvist,Erik Niemelä,Shujun Liang et al.
Emil Rosqvist et al.
The proliferation of human cervical cancer (Hela) cells was investigated on a series of nanostructured polymer latex surfaces. The physico-chemical properties of the surfaces, composed of mixtures of polystyrene and acrylonitrile butadiene ...
Tunable Structure and Properties of Co-Evaporated Co-C60 Nanocomposite Films [0.03%]
可调结构和性质的共蒸发钴-六氟化碳纳米复合薄膜
Ziyang Gu,Yiting Gao,Zhou Li et al.
Ziyang Gu et al.
Magnetic nanoparticles (NPs) hold great promise for both fundamental research and future applications due to their unique structural features, high specific surface area, and tailored physical properties. Here, we present a convenient therm...