摘要：The design and preparation of suitable supports are of great importance for gold catalysts to attain excellent catalytic performance for alcohol *** this work,we found that ZnO-CuO mixed oxides supported gold catalysts showed much better catalytic activity for base-free aerobic oxidation of benzyl alcohol than Au/ZnO and Au/CuO catalysts,and among them Au/Zn0.7Cu0.3O displayed the best catalytic *** addition,the Au/Zn0.7Cu0.3O catalyst could selectively catalyze the aerobic oxidation of a wide range of alcohols to produce the corresponding carbonyl compounds with high yields under mild conditions without *** characterizations indicated that the outstanding catalytic performance of Au/Zn0.7Cu0.3O was correlated with the small size of Au nanoparticles(NPs),good low-temperature reducibility,high concentration of surface oxygen species,and collaborative interaction between Au NPs and mixed oxide.

摘要：Selective coupling of methyl radicals to produce C_(2) species(C2H4 and C2H6)is a key challenge for oxidative coupling of methane(OCM).In traditional OCM reaction systems,homogeneous transformation of methyl radicals in O_(2)‐containing gases are uncontrollable,resulting in limited C_(2) selectivity and ***,we demonstrate that methyl radicals generated by La_(2)O_(3)at low reaction temperature can selectively couple on the surface of 5 wt%Na2WO4/SiO_(2).The controllable surface coupling against overoxidation barely changes the activity of La_(2)O_(3)but boosts the C_(2)selectivity by three times and achieves a C_(2)yield as high as 10.9%at bed temperature of only 570℃.Structure‐property studies suggest that Na_(2)WO_(4) nanoclusters are the active sites for methyl radical *** strong CH_(3)·affinity of these sites can even endow some methane combustion catalysts with OCM *** findings of the surface coupling of methyl radicals open a new direction to develop OCM *** bifunctional OCM catalyst system,which composes of a methane activation center and a CH_(3)·coupling center,may deliver promising OCM performance at reaction temperatures below the ignition temperature of C2H6 and C2H4(~600℃)and is therefore more controllable,safer,and certainly more attractive as an actual process.

摘要：近年来,由工程生物材料制成的可注射治疗剂正变得越来越流行,并推动传统的临床实践走向微创化.可注射水凝胶由于其可调控的物理及化学特性、可控的降解性能、高含水量以及在微创方式下实现递送的能力,在组织工程和药物递送领域中变得越来越重要.研究者们已开发出例如原位交联水凝胶、大孔水凝胶、水凝胶微粒、动态交联水凝胶等一系列性能独特的可注射水凝胶.通过调控水凝胶的固含量和交联密度,并引入适当的共价或非共价相互作用,例如静电相互作用、疏水相互作用等,这些水凝胶可在注射过程中实现生物活性分子的递送.同时,可注射水凝胶亦可用于细胞的递送,提供细胞培养所需的三维环境,并通过调控力学性能、化学修饰、生物功能化修饰等手段调控细胞黏附、增殖、分化等行为.本文旨在回顾近年来可注射水凝胶的设计和制备的相关进展,以及其在再生医学中的应用,并对该领域存在的挑战和潜力进行了展望.

摘要：一般情况下,每年冬季是季节性流感高发季节,但在当前2019冠状病毒病(COVID-19)大流行期间,全球季节性流感活动呈“断崖式”下降。为应对即将到来的流感季节,亟需弄清这种前所未有的流感低水平流行的原因。本文中,我们探索了一种国家特异性推理模型,利用该模型估计中国、英国和美国这三个国家中佩戴口罩、人员流动变化(国际和国内)以及严重急性呼吸综合征冠状病毒2型(SARS-CoV-2)干扰的影响。结果发现,在这些地区增加一周佩戴口罩的干预措施,流感活动可减少11.3%~35.2%。实施一周的限制人员流动措施对国际(1.7%~6.5%)和国内社区(1.6%~2.8%)的影响较小。2020年至2021年,仅佩戴口罩这一项干预措施就可使阳性率下降13.3%至19.8%。仅人员流动变化可使阳性率降低5.2%至14.0%,其中79.8%~98.2%归因于国际旅行限制。SARS-CoV-2干扰仅在2019年至2020年具有统计学显著效应。中国北方地区及英国的阳性百分比分别降低7.6%(2.4~14.4)和10.2%(7.2~13.6)。探索所得出的结果对了解非药物干预措施和其他呼吸系统疾病背景下的流感演变有一定意义,有助于制定卫生政策,并可为公共卫生措施的个性化设计提供信息。