【摘 要】
:
Understanding the growth mechanisms and associated kinetics is a fundamental issue towards the specific function-oriented controlled synthesis of nanocrystals[1-3].In this work, we will present our ex
【机 构】
:
State Key Laboratory of Materials Processing and Die & Mold Technology, School of Materials Science
论文部分内容阅读
Understanding the growth mechanisms and associated kinetics is a fundamental issue towards the specific function-oriented controlled synthesis of nanocrystals[1-3].In this work, we will present our experimental approach to reveal the growth mechanism and dissolution kinetics of zinc oxide (ZnO) nanocrystals in-situ by liquid cell TEM.By quantitatively analyzing the growth trajectories of a large number of individual nanocrystals, a novel growth mechanism and dissolution kinetics is reported.
其他文献
Six new metal-organic supermolecules of a flexible bis(beneimidazole)ligand L,namely,[Co(L)(CH3OH)(CH2COO)]·CH3OH(1),[Cd(L)I2]·2CH3OH(2),[Zn(L)2](3),[Cd2(L)2(NO3)2(CH3OH)2(CH2COO)2]·2CH3OH(4),[Zn(L)(T
近几十年,通过合并有机阳离子和金属卤(拟卤)化物所产生的有机-无机杂化材料,由于其在多个领域的潜在应用而备受关注[1] 。最近, 我们实验室合成了三价阳离子盐1,3,5-tri(4-methylpyridinium-1-ylmethyl)-2,4,6-trimethylbenzene tribromide(简写为:Tbmpm·3Br)[2],并以此阳离子作为有机模版和结构导向剂,与Cu/AgX(X
通过耦合氢发酵与生物电化学方法(MECs)实现了秸秆废弃物的高效产氢.在第一阶段的氢发酵中,在秸秆浓度20 g/L 和pH 7.0 的条件下,得到秸秆氢产量129.8 mL H2/g-corn stalk 和平均产氢速率(HPR)1.73 m3/m3.d;在第二阶段,以氢发酵废水为原料,通过生物电化学方法进一步将氢发酵废水转化为氢气,通过对关键参数的优化,秸秆的氢产量和产氢速率分别达到257.3
Bi基半导体一直是光催化材料研究热点之一,其中以Bi为核心金属离子的Sillenite矿型Bi12TiO20(BTO)、Bi12SiO20(BSO)和Bi12GeO20(BGO)功能材料,结构相同而显现不同的光催化效应,其内在机理和结构性能调控研究备受关注 [1,2]。本文采用静电纺丝法制备了Bi12MO20(M = Ti,Ge,Si)一维纳米纤维,在紫外可见降解RhB中BGO纳米纤维光催化效果最
纳米颗粒的多功能性赋予了其将成像和治疗相结合的能力,以成像研究来监测药物的分布和疗效将使个性化治疗变为现实,是癌症诊断和治疗领域近几年的研究热点[1].稀土发光的特点使其在生物成像领域具有无可比拟的优势[2].利用稀土配合物的分子设计性,设计出一种以Fe3O4 纳米颗粒为核、有机改性介孔二氧化硅为壳的核-壳结构稀土配合物纳米探针.通过在壳层孔道里负载稀土发光配合物Eu(DBM)3(phen)和抗癌
The capacity fading of spinel lithium manganese oxide cell is a bottleneck question of large-scale application.The traditional opinion thinks that Mn(Ⅱ) ions at the anode is reduced to metal manganese
Iron oxides,with low cost,abundance,and environmental friendliness,have been attracted significant attention due to their several potential applications [1,2].Magnetic iron oxides,as a kind of importa
Acetone in the human breath is a crucial biomarker for the clinical diagnosis of diabetes in a noninvasive manner.[1] Traditional methods of breath analysis have some major technical problems and limi
Lately,smaller is strongerwas widely reported in single crystals with the sample dimensions reduced to sizes less than ~ 20 mm in diameter.Several new concepts have been brought forward to explain thi
管道输送是长距离输送石油、天然气的重要方式.为了节省管线工程的建设投资,提高输送效率,采用高强度、大口径的管道输送更加经济、合理,因此,对钢管的强度要求越来越高.为了研制强度更高、性能更优异的管线钢,探索其微观组织和力学性能之间的关系,本文采用新研发生产的X100管线钢为实验材料,对其微观组织和力学性能进行了研究.