【摘 要】
:
Nucleation from solution is fundamental to many natural and industrial processes.The understanding of molecular mechanism of nucleation from solution is conducive to predict crystal structure,control polymorph and design desired crystal materials.In this
【机 构】
:
National Engineering Research Center of Industrial Crystallization Technology,School of Chemical Eng
论文部分内容阅读
Nucleation from solution is fundamental to many natural and industrial processes.The understanding of molecular mechanism of nucleation from solution is conducive to predict crystal structure,control polymorph and design desired crystal materials.In this review,the nucleation theories,including classical nucleation theory (CNT),nonclassical nucleation theory,as well as other new proposed theories,were reprised,and the molecular mechanism of these theories was compared.Then,the molecular process of nucleation,including the current study techniques,the effect of molecular self-assembly in solutions,desolvation process,as well as the properties of solvent and crystal structure on nucleation from solution were summarized.Furthermore,the relationship of molecular conformation in solution and in crystal,and the effect of solute molecular flexibility on nucleation were discussed.Finally,the current challenges and future scopes of crystal nucleation from solution were discussed.
其他文献
稠油油藏由于其高黏度特性,因此在多孔介质中的流动表现出非达西渗流的特点.以达西模型为基础的数值模拟软件未充分考虑变启动压力梯度与压敏效应对油田生产指标的影响.鉴于实际储层的非均质性,在考虑压敏效应的基础上,将启动压力梯度处理成与流度相关的变量并考虑其方向性,从而建立稠油油藏变启动压力梯度数学模型.对数学模型进行离散化与线性化,全隐式求解压力与饱和度,将模拟器前后处理模块对接ECLIPSE,对典型稠油区块进行数值模拟研究.模拟器应用于矿场实际模型研究渗流场分布特征,结果表明:考虑启动压力梯度会减小水驱波及面
为了揭示疲劳加载频率对裂隙岩石破裂演化特征的影响,采用GCTS-RTR 2000岩石力学试验系统、实时声发射监测和试验后CT扫描相结合的手段,对预制裂隙逼近角为50°的矿山岩石开展了增幅疲劳加载力学试验.试验结果表明:(1)随加载频率的增加,岩石的强度、变形和疲劳寿命随之增大,岩石体积应变增加速率呈现出稳定增加到突增的趋势,在最后一级疲劳水平变形迅速增加直至试样破坏.(2)声发射振铃数、声发射能量变化、以及裂纹扩展行为受控于加载频率.累计振铃计数和累计能量随加载频率的增加而增加.频谱分析揭示了6种典型的裂
针对稠油油藏储层特征与开发现状,基于静态泡沫性能与驱油性能评价,复配了3种具备不同性能的表面活性剂,并研究了不同表面活性剂辅助CO2驱油效果,明确了表面活性剂的主控性能.实验结果表明,表面活性剂S1,S2和S3辅助CO2驱油对渗透率级差为3.0的非均质岩心水驱后采收率增幅分别为19.7%,13.2%和15.2%,优于直接注入CO2的驱油效果,说明表面活性剂可以提高稠油油藏高含水阶段CO2驱油效果.其增油机理主要为表面活性剂驱油贡献及其与后续CO2产生的泡沫的驱油贡献.表面活性剂乳化能力越强,乳化现象越明显
蒸汽辅助重力泄油(SAGD)是一种高效开发稠油的热采技术.针对加拿大长湖油田原油黏度大,砂泥互层状隔夹层渗透率低、厚度大,隔夹层上方原油动用难度大等问题,进行了不同渗透率、不同温度下的稠油启动压力梯度室内实验,分析原油在重力作用下通过隔夹层的可行性.在此基础上,开展了3组SAGD二维物理模拟实验,研究了砂泥互层状隔夹层厚度对SAGD蒸汽腔扩展及生产效果的影响,确定砂泥互层状隔夹层条件下SAGD蒸汽腔扩展厚度界限.结果表明:在油砂开采过程中,稠油在隔夹层中的流动存在启动压力梯度现象,只有当隔夹层上方地层中的
中生代以来,华北克拉通岩石圈发生大规模减薄,岩石圈地幔的物理、化学性质发生显著改变,这一过程通常被称为华北克拉通破坏.目前在华北克拉通东部大规模发育的岩浆岩是岩石圈深部减薄过程在浅部的重要响应,也是克拉通破坏在浅部的直接表现.岩体侵位机制和侵位过程与大地构造背景密切相关,并记录同期区域大地构造信息.15年来,通过对华北克拉通东部不同岩浆发育阶段(晚三叠世、早侏罗世、晚侏罗世、早白垩世早期及早白垩世晚期)22个花岗岩体开展磁化率各向异性(AMS)的研究,反演岩体的就位过程;结合早白垩世早期广泛发育的变质核杂
非线性光学晶体材料需要同时满足多个性能指标,使得发现新的非线性光学晶体成为一项充满挑战且耗时耗力的工作.基于第一性原理的计算材料方法可以通过预测材料的性能从大量的材料中筛选出符合性能指标的材料.另外,通过研究材料的“组成-结构-性能”关系,可以鉴定材料的非线性光学活性基团,为新材料的合成提供指导.本文总结了近年来计算材料在发现新型非线性光学材料中所起到的作用和案例,介绍了目前最新发展的非线性光学材料第一性原理高通量筛选流水线系统(FHSP-NLO).该系统结合了密度泛函理论(DFT)计算程序,线性、非线性
As one of the most important organic electronic building block,organic field-effect transistors (OFETs) have broad application prospects in the fields of flexible displays,elec-tronic skins,and wearable devices.After more than 30 years of development,the
The certified power conversion efficiency(PCE)of per-ovskite solar cells which have emerged as the most pro-mising candidates for next-generation thin-film photovoltaics has exceeded 25%.Among all available compositions,formamidinium lead iodide perovskit
Optical imaging in the second near-infrared (NIR-II,1,000-1,700 nm) window with much reduced tissue scat-tering plays a crucial role in life sciences due to its high sensitivity and high spatio-temporal resolutions [1].There-fore,researchers are committed
Lithium metal anodes have received tremendous attention in recent years and are considered as the most promising anode material for the next-generation high-energy-density batteries[1].However,the commercial adoption of such anodes is severely hindered by