Results 31 to 40 of about 16,292 (168)
Controlled Synthesis and Photocatalytical/Electrochemical Research of Transition Metal Sulfide and C3N4 Composites [PDF]
, 2016 化学掺杂(复合)和微观形貌调控是改变材料结构特征,进而改善材料性能的两种主要手段。其中化学掺杂可以改变材料本身的价带和导带的位置,调整能带结构,并且掺杂的原子或复合的半导体化合物会与原材料产生一系列的互相激发反应,在材料表面或内部引起新的化学或物理反应,从而影响物质的性质;而微观形貌调控则是直接针对材料表面,控制合成不同的表面形貌,使其暴露出的活性位点发生改变,从而改变材料表面所带的基团及其比表面积,最终影响材料的光学、热学、电学、力学或化学特性。 在化学掺杂研究中 ...
王蓉蓉
core
Rare Metals, Volume 45, Issue 5, May 2026.ABSTRACT Sodium metal batteries hold significant promise for large‐scale energy storage due to the high theoretical capacity and abundant sodium sources, yet sodium‐metal anodes are hindered by dendrite propagation, unstable solid electrolyte interphase, and poor cycling efficiency arising from uneven Na deposition and volume changes.
Nan Xing +7 more
wiley +1 more source
Gaoya dianqi, 1983 对高温等离子体、低温等离子体,特别是时气吹断路器中的等离子体不稳定性的类型进行了概述和讨论。分析表明开关电弧的流动不稳定性、磁不稳定性可明显提高断路器的开断能力,而振荡不稳定性对灭弧的影响似乎是可以不考虑的。
过增元
doaj
SiO2@Phosphorous-containing Polymer Core-shell Structure Nanoparticles Flame Retardant Modified Epoxy [PDF]
, 2015 环氧树脂是一种非常重要的热固性材料,由于具有良好的化学稳定性、黏结性、低收缩、优异的热性能及机械性能等,它广泛应用于黏结剂、涂料、电子封装及复合材料等领域。然而,环氧树脂阻燃性能的不足是其应用受到限制的主要因素之一,因此,建立新型无卤、无毒的环氧树脂阻燃体系越来越成为广大研究者关注的焦点。本文首先合成了一种DOPO衍生物—甲基丙烯酸DOPO乙酯(简称HEPO),然后采用RAFT聚合法调控制备了尺寸可控的含磷嵌段共聚物PHEPOm-b-PGMAn(简称PHDG)和均聚物PMOEP ...
叶华立
core
Rare Metals, Volume 45, Issue 5, May 2026.ABSTRACT The inherent brittleness of hardmetals stems from the rigid covalent bond in the ceramic matrix and the sharp ceramic/metal interface, which restricts the nucleation and motion of dislocations. In this study, a novel strategy is proposed to activate significant dislocation behaviors in the WC matrix by employing a non‐equiatomic CoNiFeCr ...
Cheng Qian +9 more
wiley +1 more source
Rare Metals, Volume 45, Issue 5, May 2026.ABSTRACT Lithium‐selenium (Li‐Se) batteries have attracted considerable attention due to their high theoretical specific capacity and the intrinsically good electronic conductivity of selenium. Nevertheless, low active‐material utilization, parasitic side reactions, and sluggish reaction kinetics hinder their practical application.
Yanan Fu +8 more
wiley +1 more source
Response mechanism of phytoplankton to reduced seawater acidity/salinity and petroleum hydrocarbon pollution [PDF]
, 2016 浮游植物是海洋主要初级生产者,在海洋生态系统的物质循环和能量流动中起十分重要作用。由于温室效应气体CO2的加剧排放,全球变暖、海冰融化、海平面上升,导致海洋酸度和盐度下降。同时,随着海上石油开发及运输的日益发展,海洋石油泄露事故在全球各地频发,石油烃污染已成为全球主要的海洋污染物之一。 本文针对海水酸度和盐度下降及石油烃污染胁迫下,海洋浮游植物的生理生态响应及其对微量元素生物地球化学循环的影响的科学问题,以浮游植物生物量、抗氧化能力、脂质过氧化、光致产生活性氧等4种指标来探讨浮游植物的生理生态响应 ...
刘凤娇
core
Rare Metals, Volume 45, Issue 5, May 2026.ABSTRACT Single‐atom catalysts are attractive for CO2 photoreduction due to their maximized atomic utilization and tunable electronic structures. In this study, indium (In) single atoms were incorporated into graphitic carbon nitride (CN) through an impregnation‐assisted thermal polycondensation strategy.
Xueying Guo +6 more
wiley +1 more source
Preparation and evaluation of mitomycin C-phospholipid complex-based novel targeted nanoscaled drug delivery systems [PDF]
, 2015 丝裂霉素C是一种临床常用的广谱抗生素类抗癌药物。然而丝裂霉素C在静脉注射给药中受到诸多限制,如生物利用度极低、体内半衰期极短、非特异性全身分布、严重毒副作用等,使其最终到达肿瘤部位的血药浓度仅为静脉给药浓度的1/20左右。因此,如何最大限度地提高药物疗效以杀伤肿瘤细胞同时把药物毒副作用降低到最低程度无疑是丝裂霉素C在癌症化学治疗中的重要问题。本研究立足于自组装技术,我们设计并开发了基于丝裂霉素C-磷脂复合物的单药纳米传递系统以及基于丝裂霉素C(主药)-磷脂复合物和甲氨蝶呤前药(副药)的双药纳米传递系统 ...
李阳
core
Jellyfish blooms restructure plankton dynamics and trophic linkages in coastal waters
Functional Ecology, Volume 40, Issue 5, Page 1443-1460, May 2026.Read the free Plain Language Summary for this article on the Journal blog. Abstract Jellyfish blooms are increasing globally in frequency and intensity, introducing complex ecological interactions, yet the mechanisms by which they alter ecosystem structure remain poorly characterized due to a lack of sustained field observations.
Pengpeng Wang +4 more
wiley +1 more source