聚合物交联反应诱导相分离过程的光散射二维相关分析研究

采用二维相关分析技术对聚醚砜(PES)/环氧树脂/二(2,6-二甲基苯胺基)甲烷体系的相分离过程的光散射数据进行了分析研究. 分析结果表明二维光散射分析可以提供一维光散射较难得到的信息: 在该体系相分离的演化过程早期, 即扩散控制期内, 体系中较小尺寸相区的粗大化早于较大的相区. 在相分离的中后期, 较小尺寸的富集相因碰撞融合产生更大尺寸相区的变化优先于较大尺寸相区的粗大化过程. 其原因可能是: 一方面这种增长方式比较有利于体系的能量较快地降低, 另一方面是在相分离的中后期界面运动导致的流动作用影响不容忽视.     

AN ACCELERATION STRATEGY FOR RANDOMIZE-THEN-OPTIMIZE SAMPLING VIA DEEP NEURAL NETWORKS

Randomize-then-optimize (RTO) is widely used for sampling from posterior distribu-tions in Bayesian inverse problems.However,RTO can be computationally intensive for complexity problems due to repetitive evaluations of the expensive forward model and its gradient.In this work,we present a novel goal-oriented deep neural networks (DNN) sur-rogate approach to substantially reduce the computation burden of RTO.In particular,we propose to drawn the training points for the DNN-surrogate from a local approximated posterior distribution-yielding a flexible and efficient sampling algorithm that converges to the direct RTO approach.We present a Bayesian inverse problem governed by elliptic PDEs to demonstrate the computational accuracy and efficiency of our DNN-RTO ap-proach,which shows that DNN-RTO can significantly outperform the traditional RTO.     

Efficient conversion of fructose to 5-hydroxymethylfurfural over sulfated porous carbon catalyst

Sulfated porous carbon (PC-SO3H) catalyst was successfully synthesized from one-pot treatment of porous polydivinylbenzene in H2SO4 at 250 C, which exhibited very good catalytic performances in the production of 5-hydroxymethylfurfural from fructose.     

Self-supported metal sulphide nanocrystals-assembled nanosheets on carbon paper as efficient counter electrodes for quantum-dot-sensitized solar cells

Developing efficient counter electrodes (CEs) and quantum dots made of earth-abundant and non-toxic elements is essential but still challenging for quantum dot-sensitized solar cells (QDSSCs). Here, we report a facile strategy to prepare self-supported and robust CoS₂ and NiS nanocrystals-assembled nanosheets directly grown on carbon paper (MSx NS@CP) as efficient counter electrodes for QDSSCs. Such CEs integrate the merits of fast electron transfer from interconnected conductive scaffold, efficient mass transfer from hierarchically vertical nanosheet on 3D open substrate, as well as abundant highly active catalytic sites from metal sulphide nanocrystal units. As a result, QDDSCs based on such CoS₂ NS@CP and NiS NS@CP CEs achieve a PCE of 8.88% and 7.53%, respectively. The detailed analyses suggest that CoS₂ NS@CP has the highest catalytic activity and shows the lowest charger transfer resistance, leading to the highest PCE. These findings may inspire the design and exploration of other self-supported efficient CEs by integrating highly active catalysts onto 3D conductive networks for efficient QDSSCs.     

复杂中空结构材料的构筑及能源应用

随着能源问题的日益突显,开发新型多功能材料以满足能源存储与转换应用的需求变得尤为重要.在众多功能材料中,复杂中空结构材料由于其独特的结构和物理化学特性而备受关注.本文综合评述了复杂中空结构材料的普适性构筑方法(硬模板法、软模板法、自模板法、次序模板法和选择性刻蚀法)及在能源方面的应用(锂/钠/钾离子电池、锂硫电池、超级电容器、电催化、光催化及染料敏化电池等).最后,对复杂空心结构研究领域存在的问题及未来的发展方向进行了展望.     

离子交换纤维吸附去除As(Ⅲ)

制备了一种新型的离子交换纤维RPFA-I,用于去除水体中亚砷酸根离子的研究.在研究的范围内,Fre-undlich型吸附等温方程能够很好地描述等温吸附平衡数据;吸附动力学数据符合Lagergren二级速度方程;pH=6.22时,吸附量达到最大;用0.1mol/L的NaOH溶液可以实现纤维的再生,再生性能优良.     

二水合氯精氨酸的构象变化

以X光衍射实验对二水合氯酸的晶体结构进行了研究,重点讨论了影响精氨酸构象变化的主要因素并比较了在不同阴离子存在条件下精氨酸构象的变化情况。该晶体为单斜晶系,P21/c,a=11.0490(18);b=8.4876(13);c=11.2261(17);β=91.386(2);°Z=4;Dx=1.443Mg.m-3。精氨酸分子以顺式和反式两种构象沿C轴方向交错排列而羧基氧原子和相邻分子中的α-氨基N-H以氢键相连,形成常见的“头尾”相连构型;分子中的结晶水参与氢键的形成,类似“盐桥”作用;氯离子参与电荷平衡并和精氨酸的N-H形成较强的氢键作用和静电吸引力。上述作用使得精氨酸分子晶体形成了三维氢键网状超分子结构。     

4,5-二苯基噁唑的荧光性能研究

荧光是物质从激发态失活到多重性相同的低能状态时所释放的辐射.自二十世纪初以来,有机荧光材料广泛用于纺织、塑料着色及印刷颜料,此外它在药物学、生物学、环境科学、信息科学方面都有广阔的应用前景.     

接枝改性PVDF基含氟聚合物

聚偏氟乙烯(PVDF基)含氟聚合物由于其独特的性能受到了广泛的关注.将功能化链段引入PVDF基含氟聚合物可以进一步提升其性能并拓展其应用领域.相较于物理共混法和直接共聚改性法,通过接枝改性法将功能化单体引入含氟聚合物的侧链具有更显著的优势,可便捷、高效地得到组成精确,结构可控的接枝共聚物.本文综述了通过活性自由基聚合(...