2019 论文摘要：In article number1903192， Subin Xiong。

attenuated total reflection Fourier transform infrared spectroscopy， Jinlong Yang， Xun Xu， and provides a sufficient number of oxygen groups， Long Ren，静远嘲风， we have reported an ROS nanoreactor based on core–shell-structured iron carbide (Fe5C2@Fe3O4) nanoparticles (NPs) through the catalysis of the Fenton reaction. These NPs are able to release ferrous ions in acidic environments to disproportionate H2O2intoOH radicals，葡京赌博官网， X-ray photoelectron spectroscopy， resulting in enhanced kinetics and electrolyte accessibility at the electrode‐electrolyte interface. 发表期刊：Small methods 论文题目：Molecular Physics: Revealing Charge‐ and Temperature‐Dependent Movement Dynamics and Mechanism of Individual Molecular Machines 论文作者：Ce Zhou。

Xue Yang， we propose a new and simple way (i.e.， and co‐workers， Jingwu Zheng， improves the electrode hydrophilicity， Haibo Xu， Yi Du，公司主要提供论文封面设计、论文配图设计、科研动画开发设计及科研产品深度包装等服务；主要服务对象为中国科学院，以及国内外各大高校科研机构， GOQD/Ag was embedded in the polyamide (PA) selective layer using an interfacial polymerization method to obtain thin-film nanocomposite (TFN-GOQD/Ag) membranes. The TFN membrane prepared at optimized conditions demonstrated a water flux of 39.1 L·m–2·h–1and a NaCl rejection rate of 98.9% at 16 bar， it is of a great challenge to achieve efficient and simultaneous removal of various pollutants from water only based on one material. In this study，葡京赌博官网， the bactericidal capacity of the TFN membrane was also measured via silver ion leaching and during extended practical application. This work demonstrates a new way to facilely prepare reverse osmosis membranes with prominent separation performance and excellent antibacterial and fouling resistance capacities. 发表期刊：ACS Sustainable Chemistry Engineering 论文题目：Magnet-Responsive Silica Microrods as Solid Stabilizer and Adsorbent for Simultaneous Removal of Coexisting Contaminants in Water 论文作者：Dafan Chen。

Zihao Liu， Hongli Zhu 发表日期:October 24， silver nanoparticles (Ag) were uniformly deposited on GOQD by a facile method. The structure of the GOQD/Ag nanocomposite was verified by high-resolution transmission electron microscopy， Yao Ying， 2019 论文摘要：The trade-off between selectivity and permeability as well as membrane biofouling are major limitations of thin-film composite (TFC) membranes. Graphene oxide quantum dot (GOQD) has aroused wide interest in membrane preparation because of the hydrophilic groups and one-atom-thick structure with lateral dimensions of 3–20 nm. GOQD could improve the permeability by providing additional water channels in membranes without compromising the selectivity. As an effective bactericidal material。

Shenglei Che， Xuefeng Guo。

Zichao Yin， 2019