PtRuAgCoNi高熵合金纳米颗粒高效电催化氧化5-羟甲基糠醛

5-羟甲基糠醛(HMF)的电催化氧化被认为是合成2,5-呋喃二甲酸(FDCA)最环保、经济和有效的方法之一,它可作为聚呋喃二甲酸乙二醇酯(PEF)的生物基前体。在这项工作中,我们通过低温溶剂热法合成了PtRuAgCoNi高熵合金纳米颗粒,并在不改变颗粒结构和组成的情况下进行了简易的处理以去除表面活性剂。负载在碳载体上的合金纳米催化剂无论是否含有表面活性剂在HMF电催化氧化为FDCA的过程中都表现出比商业Pt/C更好的催化性能。且表面活性剂的去除可以进一步提高其电催化性能,表明高熵合金纳米粒子在电催化和绿色化学中具有广阔的应用前景。     

“三维”立体化保障体系为化学学科教书育人做好核心支撑——吉林大学化学学院人才培养保障工作实践探索

目前,我国高等教育发展已经进入“深水区”和“无人区”,校、院层面围绕人才培养建立的管理机制、服务机制需要广大教育工作者的探索与实践。吉林大学化学学院充分利用职称评聘、教师能力发展、学生活动、教学改革和课程建设等方面的政策导向,健全奖励激励制度,加强配套经费支持,探索构筑了以教师和学生为主体,涉及教学、管理和服务的“三维”立体化保障体系,有效地促进和保障了学院高质量拔尖创新人才培养。     

“Ghost peaks” of olmesartan medoxomil: Two solution degradation products of olmesartan medoxomil via oxidation mediated by metal ions

Two unknown solution degradants were found during the dissolution testing in 0.1-M HCl for olmesartan medoxomil (OLM) tablets. The structure of the degradants was identified and characterized by liquid chromatography–ultraviolet (LC–UV), liquid chromatography with tandem mass spectrometry (LC–MS/MS), and nuclear magnetic resonance (NMR) and demonstrated to be cyclization of tetrazole and benzene in the olmesartan (OL) and OLM structures. A series of studies including stress studies, simulation studies, and mechanism-based studies were performed to reveal the potential mechanisms that lead to the formation of the unknown degradants. The study results demonstrated that the degradation was catalyzed with radicals that originated from the metal ions leached from the inner surface of high-performance liquid chromatography (HPLC) glass vials with dissolved oxygen under acidic condition. Prerinsing the glass vials with acidic solution dissolved with EDTA can effectively avoid the generation of such oxidative impurities. The present work provides new insights into the understanding of degradation pathways of OLM, which might support the development of OLM tablets.     

Synthesis of dual pH- and temperature-sensitive poly(N-isopropylacrylamide-co-acrylic acid)/sewage sludge ash hydrogel with the simultaneously high performance of swelling and deswelling

An advanced dual pH- and temperature-sensitive hydrogel (NASH2.5) was optimally synthesized through modification of N-isopropylacrylamide (NIPAM) hydrogel with introducing 5 mol% acrylic acid (AA) and 2.5 wt% sewage sludge ash (SSA). The swelling kinetic results showed that NASH2.5 exhibited both high equilibrium swelling ratio and swelling rate, which was attributed to the higher porous structure as shown in scanning electron microscope, and the more hydrogen bonding formed inside of the hydrogel as investigated in Fourier transform infrared spectrometer. In addition, its curve was better fitted to the pseudo-second-order model, indicating that the water absorption process was dominated by chemisorption through forming the hydrogen bonding among the water molecules and carboxyl/silanol groups of the hydrogel. Compared with the pure NIPAM hydrogel, the water transport mechanism switched from Case I diffusion to Case II diffusion by introduction of AA and further SSA. Furthermore, through the results of the deswelling kinetics in pH value change (from 9 to 4 and 2, respectively), temperature value change (from 25 to 40, 50, and 60°C, respectively), and dual pH and temperature values changes, NASH2.5 not only presented a high pH sensitivity, but also showed high sensitive to temperature by achieving high water recovery ratio in rapid dehydrated rate. Therefore, the dual stimuli-sensitive hydrogel with the simultaneously high performance of swelling and deswelling would provide a suitable alternative for specific applications such as pollutant adsorption.     

Superhydrophobic surface based on micro/nano structured ZnO nanosheets for high-efficiency anticorrosion

Journal of Solid State Electrochemistry - There are two key factors in the fabrication of superhydrophobic surfaces. One is to have the appropriate micro/nano structure, and the other is to reduce...     

Insight mechanism of nano iron difluoride cathode material for high-energy lithium-ion batteries: a review

Journal of Solid State Electrochemistry - Iron(II) fluoride (FeF2) is a promising candidate as the cathode material for lithium-ion batteries (LIBs) due to its quite high theoretical energy density...     

Chemistry-Performance Relationships of Polymer Gel-Electrolytes for Mg−S and Li−S Batteries: Influence of Network Cation Solvation Capacity on Polymer-Polysulfide Interactions

Metal-sulfur batteries are a promising next-generation energy storage technology, offering high theoretical energy densities with low cost and good sustainability. An active area of research is the development of electrolytes that address unwanted migration of sulfur and intermediate species known as polysulfides during operation of metal-sulfur batteries, a phenomenon that leads to low energy efficiency and short life-spans. A particular class of electrolytes, gel polymer electrolytes, are especially attractive for their ability to repel polysulfides on the basis of structure, electrostatics, and other polymer properties. Herein, within the context of magnesium- and lithium-sulfur batteries, we investigate the impact of gel polymer electrolyte cation solvation capacity, a property related to network dielectric constant and chemistry, on sulfur/polysulfide-polymer interactions, an understudied property-performance relationship. Polymers with lower cation solvation capacity are found to permanently absorb less polysulfide active material, which increases sulfur utilization for Li−S batteries and significantly increases charge efficiency and life-span for Li−S and Mg−S batteries.     

60Co-γ辐照对食品接触用复合包装袋中挥发性化合物的影响

针对辐照杀菌会使塑料包装产生未知辐解产物的问题,该文采用顶空气相色谱－质谱法（HS/GC－MS）结合MS－DIAL软件对60Co-γ辐照（0 ~ 10 kGy）后的19种商用塑料复合包装袋中的挥发性有机物（VOCs）进行检测。以MS－DIAL软件对谱图的解卷积、峰对齐及物质定性结果,以正交偏最小二乘法判别分析（OPLS－DA）模型对辐照前后材料的VOCs组成进行分析,考察不同辐照剂量下复合包装材料中VOCs组成的变化。结果显示,复合包装中的VOCs以聚合物降解产物烷烃和烯烃为主,60Co-γ辐照前后复合包装中的VOCs组成具有显著差异,且包装产生的VOCs总量随辐照剂量的增加而递增。通过OPLS－DA模型投影变量重要度（VIP）值筛选出17种对差异贡献较大的物质,这些差异物质大多为材料的降解产物,总体呈现检出量随辐照剂量增加而递增的趋势。该研究结果为辐照包装中挥发性非有意添加物质数据库的建立提供了依据。     

Enhanced stability designs of cell membrane chromatography for screening drug leads

Cell membrane chromatography is an effective method for screening bioactive components acting on specific receptors in complex systems, which maintains the biological activity of the membrane receptors and improves screening efficiency. However, traditional cell membrane chromatography suffers from poor stability, resulting in a limited life span and low reproducibility, greatly limiting the application of this method. To address this problem, cyanuric chloride-decorated silica gel was used for the covalent immobilization of the cell membranes. Cyanuric chloride reacts with amino groups on the cell membranes and membrane receptors to form covalent bonds. In this way, the cell membranes are not easy to fall off. The column life of the cyanuric chloride-decorated epidermal growth factor receptor/cell membrane chromatography column was extended to more than 8 days, whereas the column life of the normal cell membrane chromatography column dropped sharply in the first 3 days. A cyanuric chloride-decorated epidermal growth factor receptor/cell membrane chromatography online HPLC-IT-TOF-MSn system was applied for screening drug leads from Trifolium pratense L. One potential drug lead, formononetin, which acts on the epidermal growth factor receptor, was screened. Our strategy of covalently immobilizing cell membrane receptors also improved the stability of cell membrane chromatography.     

基于“透过表面接枝”方式制备低分散性和高接枝密度聚合物刷的研究

"透过表面接枝"(grafting-through)是一种聚合物表面改性的新方法,可以显著改善传统grafting-from和grafting-to方法接枝工艺的缺陷,获得兼具高接枝密度和低分散性的聚合物刷产物.本文采用布朗动力学模拟方法,模拟研究了grafting-through方法接枝聚合物刷过程中的主控因素,从微观动力学角度阐明其特有的链增长趋同化效应是保持产物聚合物刷较低分散性的主因.引发效率在grafting-through中可显著提高,且产物聚合物刷的分子量呈现泊松分布.此外,反应中保持高的单体通量,可以同时实现产物聚合物较长的平均链长和较低的分散性,有利于制备性能优异的改性材料.该研究对深入理解grafting-through接枝过程的动力学主控因素,促进grafting-through技术的推广和工艺的改进具有一定的理论指导意义.