新型2D MXenes纳米材料在光催化领域的应用

MXenes是一类新型的二维(2D)过渡金属碳化物、氮化物或碳氮化物的总称,在物理、化学、材料科学和纳米技术领域产生了巨大的影响。MXenes材料在制备过程中,表面会生成羟基、氟等基团,表面具有亲水性和良好的可见光响应,加上其自身具有比表面积大、活性位点丰富等优点,使其成为一种新兴的光催化材料。本文主要对MXenes及其复合材料在光催化领域的最新研究进展进行总结,简要介绍了MXenes材料的合成方法及理化性质,着重介绍了MXenes及其复合材料作为光催化剂的复合方式,光催化机理等方面的内容,并逐一列举其在光催化氧化与还原反应中的重要作用,最后对MXenes及其复合物的进一步研究提出建议和展望。     

3D Printing in analytical sample preparation

In the last 5 years, additive manufacturing (three‐dimensional printing) has emerged as a highly valuable technology to advance the field of analytical sample preparation. Three‐dimensional printing enabled the cost‐effective and rapid fabrication of devices for sample preparation, especially in flow‐based mode, opening new possibilities for the development of automated analytical methods. Recent advances involve membrane‐based three‐dimensional printed separation devices fabricated by print‐pause‐print and multi‐material three‐dimensional printing, or improved three‐dimensional printed holders for solid‐phase extraction containing sorbent bead packings, extraction disks, fibers, and magnetic particles. Other recent developments rely on the direct three‐dimensional printing of extraction sorbents, the functionalization of commercial three‐dimensional printable resins, or the coating of three‐dimensional printed devices with functional micro/nanomaterials. In addition, improved devices for liquid–liquid extraction such as extraction chambers, or phase separators are opening new possibilities for analytical method development combined with high‐performance liquid chromatography. The present review outlines the current state‐of‐the‐art of three‐dimensional printing in analytical sample preparation.     

17O-核磁共振法研究不同处理方法对液态水缔合结构的影响

水作为人类重要的生产要素,参与了卷烟生产的多个环节。水在自然条件下以分子簇的形式存在,多种处理方式可以改变水分子团簇的大小。本文以¹⁷O-核磁共振法为水分子团簇的表征手段,以自来水为水源,考察了氢气、远红外辐射陶瓷球、反渗透、磁场四种处理方法对水分子簇的影响。结果表明:四种处理方式均能使一定量水分子由氢键结合态变为自由态,从而使水分子簇变小。不同处理方法对液态水缔合结构的影响大小排序为氢气处理>远红外陶瓷球处理>反渗透处理>磁场处理。同时,对氢气处理效果的时效性进行了考察,随着放置时间增加,部分自由态水分子再次转变为氢键结合态,水分子簇尺寸变大,但三天后仍保留了一定处理效果。本研究表明氢气处理为四种处理方式中最优的水处理方式,具有提升烟草行业生产用水品质的潜在应用价值。     

3D printing for aqueous and non-aqueous redox flow batteries

Additive manufacturing technologies, generally grouped under the name of 3D printing, are experiencing an explosion of interest during the last few years. The possibility of fast prototyping enabled by 3D printing has been recognized as a crucial booster for device fabrication and general scientific advancements. In this review, attention is focused on the latest developments in the field of redox flow batteries which are, similar to other energy related devices, characterized by the recent adoption of 3D printing methods for the fabrication of key components. Whether simply to investigate flow phenomena, test new designs or fabricate final-product components with custom features, the use of 3D printing can critically drive this field of research towards better performing energy-storage systems. The latest and most representative examples of redox flow battery studies will be discussed, categorized in relation to the electrolyte used and whether the devices are employed in aqueous or non-aqueous applications.     

聚合物前驱体3D打印制备高性能陶瓷

3D打印制备陶瓷可以实现结构-材料设计一体化,为复杂形状陶瓷材料快速成型提供了新途径。但是传统的3D打印制备陶瓷是以陶瓷粉末或陶瓷颗粒为打印材料,存在陶瓷构件尺寸精度差、表面光洁度低和力学性能不佳等问题。近年来,以聚合物前驱体为打印材料,通过3D打印成型、高温裂解等工艺制备高性能陶瓷技术的出现为改善这些不足提供了新方法,成为3D打印陶瓷领域的研究热点。本文概述了聚合物前驱体3D打印制备高性能陶瓷的研究进展,重点阐述了本体聚合物前驱体、聚合物前驱体/光敏化合物、聚合物前驱体/巯基化合物、光敏基团改性聚合物前驱体、增强体/聚合物前驱体五种典型材料体系的研究现状,并对其今后的发展方向进行了展望。     

3D crumbled MXene for high-performance supercapacitors

MXene materials have recently attracted considerable attention in energy storage application owing to their metallic conductivity, 2D structure and tunable surface terminations. However, the restacking of 2D MXene nanosheets hinders the ion transport and accessibility to the surface, resulting in adverse effect on their electrochemical performances. Here, with the assistance of hexamethylenetetramine (C₆H₁₂N₄), 2D Ti₃C₂T_x MXene nanosheets were fabricated into a 3D architecture with crumbled and porous structure through an electrostatic self-assembly followed by annealing. The resultant 3D structure can expose massive active sites and facilitates the ion transport, which is beneficial for sufficient utilization of the outstanding superiorities of the MXene. Therefore, as a pseudocapacitive material, the 3D crumpled and porous Ti₃C₂T_x MXene shows a gravimetric capacitance of 333 F/g at 1 A/g, and maintains 261 F/g and 132 F/g at ultrahigh current densities of 100 A/g and 1000 A/g, respectively, revealing promising potential for application in supercapacitors.     

植物纤维及其提取物增强聚合物的3D打印成型研究

3D打印技术作为新型成型技术,近年来受到了巨大的关注,但常见的PLA、ABS等单体打印耗材由于其自身的不同缺点,限制了其进一步的应用。本文综述了植物纤维及其提取物增强聚合物复合材料在3D打印领域的应用研究进展,重点阐述了木纤维、竹纤维,秸秆纤维等常见植物纤维用于3D打印的研究现状,还介绍了纤维素、木质素、半纤维素等植物纤维提取物增强聚合物用于3D打印的研究情况。同时对植物纤维/聚合物材料存在的一些问题及改性方法进行了分析与展望。     

基于等离子体型Ag@AgBr插层K4Nb6O17的可控合成及光催化性能

在微波辅助条件下采用离子交换和光致还原的方法将Ag@AgBr纳米粒子插层进入K4Nb6O17层间,制备了具有等离子体共振效应的可见光催化剂(记作K4Nb6O17/Ag@AgBr).在胺交换过程中采用不同链长的有机胺对酸交换产物进行柱撑,通过铌酸钾层间距的变化实现层间Ag@AgBr纳米粒子的形貌调控.利用XRD,SEM,EDX,UV-Vis等手段对复合催化剂进行结构、形貌和性质分析,并对复合光催化剂进行了可见光降解亚甲基蓝、甲基橙和苯酚的性能研究.结果表明:改性后的复合光催化剂在可见光区的响应大大增强;3种复合光催化剂对目标污染物均具有良好的可见光催化活性,其中十二胺柱撑的Ag@AgBr插层K4Nb6O17复合光催化剂对亚甲基蓝的移除效果最好.     

中心金属离子改变诱导MOFs结构和光催化性能的改变

在相同的水热条件下,铜盐、钴盐分别和配体H₂PPCA（H₂PPCA=5-pyrazin-2-yl-1H-pyrazole-3-carboxylic acid）发生反应,生成了2个结构截然不同的金属有机配合物,分别是[Cu（PPCA）（H₂O）]·H₂O（HPU-7）和{[Co（PPCA）（H₂O）]·H₂O}_n（HPU-8）。HPU-7是由CuCl₂·2H₂O与配体在160℃下反应而成的,它呈现出零维的双核铜单元结构。HPU-8是由Co（NO₃）₂·6H₂O与配体在160℃下反应生成的,它呈现出由双核钴单元与配体的骨架相连而成的4,4-连接的二维层结构。中心金属离子的改变导致了不同结构MOF的形成,并且它们的电化学性能研究表明它们是很好的半导体材料,它们都对亚甲基蓝（MB）具有较好的光催化效果。     

Syntheses,Structures, and Properties of the 3D Lanthanide Organic Frameworks with N‐Heterocyclic Polycarboxylic Acids

Four 3D lanthanide organic frameworks from potassium pyrazine‐2, 3, 5, 6‐tetracarboxylate (K₄pztc) or potassium pyridine‐2, 3, 5, 6‐tetracarboxylate (K₄pdtc), namely, {[KEu(pztc)(H₂O)₂] · H₂O}_n ( 1 ), {[KTb(pztc)(H₂O)₂] · 1.25H₂O}_n ( 2 ), {[KLn(pdtc)(H₂O)] · H₂O}_n [Ln = Gd ( 3 ), Ho ( 4 )], were synthesized by reaction of the corresponding lanthanide oxides with K₄pztc or K₄pdtc in presence of HCl under hydrothermal conditions, and characterized by elemental analysis, TGA, IR and fluorescence spectroscopy as well as X‐ray diffraction. In complexes 1 and 2 , the dodecadentate chelator pztc^4– links four Ln^III ions and four K^I ions. The coordination mode of the pztc^4– ligand is reported for the first time herein. Complexes 3 and 4 are isostructural with earlier reported Nd, Dy, Er complexes. Moreover, the Eu^III and Tb^III complexes exhibit the characteristic luminescence.