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81.
Dr. Yinxiang Zeng Zhihao Pei Dr. Yan Guo Dr. Deyan Luan Prof. Xiaojun Gu Prof. Xiong Wen Lou 《Angewandte Chemie (International ed. in English)》2023,62(45):e202312145
Constructing multifunctional interphases to suppress the rampant Zn dendrite growth and detrimental side reactions is crucial for Zn anodes. Herein, a phytic acid (PA)-ZnAl coordination compound is demonstrated as a versatile interphase layer to stabilize Zn anodes. The zincophilic PA-ZnAl layer can manipulate Zn2+ flux and promote rapid desolvation kinetics, ensuring the uniform Zn deposition with dendrite-free morphology. Moreover, the robust PA-ZnAl protective layer can effectively inhibit the hydrogen evolution reaction and formation of byproducts, further contributing to the reversible Zn plating/stripping with high Coulombic efficiency. As a result, the Zn@PA-ZnAl electrode shows a lower Zn nucleation overpotential and higher Zn2+ transference number compared with bare Zn. The Zn@PA-ZnAl symmetric cell exhibits a prolonged lifespan of 650 h tested at 5 mA cm−2 and 5 mAh cm−2. Furthermore, the assembled Zn battery full cell based on this Zn@PA-ZnAl anode also delivers decent cycling stability even under harsh conditions. 相似文献
82.
Jie Xu Weihua Qiu Xu Zhang Zhihan Wu Zhen Zhang Dr. Kai Yang Prof. Dr. Qiuling Song 《Angewandte Chemie (International ed. in English)》2023,62(47):e202313388
The direct C−H functionalization of 1,2-benzazaborines, especially asymmetric version, remains a great challenge. Here we report a palladium-catalyzed enantioselective C−H olefination and allylation reactions of 1,2-benzazaborines. This asymmetric approach is a kinetic resolution (KR), providing various C−B axially chiral 2-aryl-1,2-benzazaborines and 3-substituted 2-aryl-1,2-benzazaborines in generally high yields with excellent enantioselectivities (selectivity (S) factor up to 354). The synthetic potential of this reaction is showcased by late-stage modification of complex molecules, scale-up reaction, and applications. 相似文献
83.
Dr. Xinyu Guan Fengqian Chen Prof. Dr. Shilun Qiu Prof. Dr. Qianrong Fang 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2023,135(3):e202213203
Three-dimensional covalent organic frameworks (3D COFs) with spatially periodic networks demonstrate significant advantages over their 2D counterparts, including enhanced specific surface areas, interconnected channels, and more sufficiently exposed active sites. Nevertheless, research on these materials has met an impasse due to serious problems in crystallization and stability, which must be solved for practical applications. In this Minireview, we first summarize some strategies for preparing functional 3D COFs, including crystallization techniques and functionalization methods. Hereafter, applications of these functional materials are presented, covering adsorption, separation, catalysis, fluorescence, sensing, and batteries. Finally, the future challenges and perspectives for the development of 3D COFs are discussed. 相似文献
84.
以萘为碳源, 采用MgO模板诱导耦合KOH裁剪技术制备了相互连接的多孔碳纳米囊(ICNC). 结果表明所制备的ICNC2具有大的比表面积(1811 m2/g)、 高的压实密度(1.38 g/cm3)和微孔孔容含量(58.93%). 在对称的超级电容器(SC)中, ICNC2电极的体积比容在不同电流密度下分别高达420.8 F/cm3(0.069 A/cm3)和315 F/cm3(27.6 A/cm3), 容量保持率为74.82%. 在38 W/L功率密度下, ICNC2基SC的体积能量密度为14.6 W?h/L. 经过20000次循环后, 其体积比容仅衰减1.4%, 库伦效率为99.1%, 为从萘基小分子制备储能用功能碳材料提供了一种可行的方法. 相似文献
85.
阴离子交换膜(AEM)燃料电池因具有使用非贵金属作为催化剂的优点而受到广泛关注.然而,在碱性体系中,AEM燃料电池中氢氧化反应(HOR)的反应动力学比在酸性介质中的慢两个数量级.针对HOR在碱中动力学缓慢的问题,有两种主要的理论来解释,(1)pH相关的氢结合能作为主要影响因素来控制HOR动力学的理论;(2)质子和氢氧根离子的吸附共同作为影响因子来控制HOR在碱性条件下的动力学的双功能理论.本文首先讨论了在碱性电解质中可能的HOR反应机理及其Tafel性能变化.除了传统的Tafel-Volmer和Heyrovsky-Volmer-HOR机理外,还讨论了最新提出的氢氧根离子吸附参与的HOR机理来说明在酸性和碱性介质中HOR机理的差异.然后,总结了具有代表性的碱性HOR催化剂(如贵金属、合金、金属间化合物、镍基合金、碳化物、氮化物等),简要介绍了它们相应的HOR反应机理,从而进一步理解在碱性介质中不同基元反应步骤给HOR性能带来的差异.最后,提出了一种未来设计HOR碱性催化剂的可行性方案,为今后碱性环境下的HOR催化剂设计提供参考. 相似文献
86.
DNA酶中的G-四链体-血红素(G4-hemin)DNA酶结构具有较高的设计性和化学稳定性,因此格外受研究者关注.G-平面作为辅酶因子hemin的结合位点,不仅提供大π平面与hemin结合,而且其平面上的G碱基还可以充当近端配位基团与hemin进行配位.因此,研究G-平面完整性在G4-DNA酶体系中的作用具有重要意义.本文设计了一系列含有空位的G4(G-vacancy,GV)及G-三链体,通过“鸟嘌呤类似物插入”策略实现G-平面完整性以及DNA酶催化活性的恢复.结果表明,末端G-平面完整性是G4-DNA酶具有催化活性的必要条件,且其能够充当近端配位基团与末端碱基协同激活G4-DNA酶.考虑到hemin会选择性地结合于G4的3’-端平面,本文以含有3’-端空位的G4以及G-三链体为模型进行DNA酶的构建.结果表明,相较于末端完整的G4-hemin DNA酶,末端不完整的G4结构所形成的DNA酶催化活性很低.为了进一步验证该平面完整性的重要性,本文提出了“鸟嘌呤衍生物插入”策略,即将鸟嘌呤衍生物(无环鸟苷和鸟苷)插入G-空位以恢复G-平面的完整性.通过圆二色光谱和紫外熔解实验,发现末端平面完整性的缺失会使圆二色特征峰信号和G4结构热稳定性下降,而鸟嘌呤碱基类似物的加入则可以使特征峰信号以及热稳定性得到一定程度的恢复,表明鸟嘌呤碱基类似物的加入确实使G-平面完整性得到恢复.与此同时,随着鸟嘌呤碱基类似物浓度的增加,G4-hemin DNA酶活性逐渐增强,最终恢复至与完整G4一样的活性.在以G-三链体为模型的实验中,本文通过另一条富G序列与G-三链体进行结合,形成复合的(3+1)型G4结构,最终实现了DNA酶活性的恢复.同时,在3’-G-平面末端增加了激活碱基(dA或dTC),结果表明,即使G-平面不完整,末端碱基依旧能够激活DNA酶,但酶活性整体弱于完整G4时的活性.同样,“鸟嘌呤衍生物插入”策略可以使酶活性得到恢复.本文系列实验充分说明了末端碱基可与G-平面形成协同作用,与hemin的铁中心共同形成六配位关系,加速催化中间体生成,进而增强催化活性.有趣的是,通过设计Holliday junction结构研究发现,“鸟嘌呤衍生物插入”策略仅适用于平行G4结构.G-空位的存在不仅降低了G4结构的稳定性,而且降低了其与hemin间的亲和力,二者均是造成G4-DNA酶催化能力下降的主要因素.总之,本文证明了3’-端G-平面的完整性是G4-DNA酶实现其催化能力必不可少的因素,对理解末端G-平面在G4-DNA酶中的作用具有重要的参考意义. 相似文献
87.
LI Mengqi MA He SHI Chao ZHANG Han LONG Saran SUN Wen DU Jianjun FAN Jiangli PENG Xiaojun 《高等学校化学研究》2021,37(4):925-933
Currently, chemotherapy is one of the most important treatment modalities for malignant tumors in the clinic, however, it exhibits some shortcomings, such as poor selectivity, limited efficacy and serious adverse effects. Therefore, synergistic therapy and accurate drug delivery at tumor sites become a promising strategy for achieving tumor eradication. Herein, a smart NIR fluorescence imaging-guided nanoliposome was fabricated by encapsulating a chemotherapeutic drug(doxorubicin, DOX), liposomes(L) and a near-infrared(NIR) photosensitizer(CY) to form L@CY@DOX, which could realize enhanced therapeutic efficacy of chemo-PDT in cancer therapy(PDT=photodynamic therapy). L@CY@DOX can induce mitochondrial apoptosis and produce severe toxicity at the cellular level, and L@CY@DOX can enrich in the tumor site, which significantly induces tumor death. In vitro and in vivo studies demonstrated that L@CY@DOX exhibited great antitumor efficacy compared with each one of these monotherapies, indicating that the combination of chemotherapy and PDT possessed potential development prospects and is anticipated in clinical application. 相似文献
88.
Overexposure to ultraviolet (UV) with high energy can not only hurt human skin but also accelerate the degradation of organic matter. Hence, the preparation of polymer‐based UV‐shielding nanocomposites has attracted substantial attention due to the low cost, easy processing and wide applications. Notably, the highly efficient UV‐shielding polymer nanocomposites are still hindered by the agglomeration of inorganic anti‐UV nanoparticles (Nps) in polymer matrix and the narrow absorption range of UV‐shielding agents. To overcome the aforementioned bottlenecks, surface engineering of anti‐UV Nps including organic modification and inorganic hybridization has been extensively employed to enhance the UV‐shielding efficiency of composites. Herein, to deliver the readers a comprehensive understanding of the surface engineering of anti‐UV Nps, we systematically summarize the recent advances in surface organic modification and inorganic hybridization related to anti‐UV Nps. The UV‐shielding mechanism and the factors affecting UV‐shielding efficiency of polymer nanocomposites are also discussed. Finally, perspectives on remaining challenges and future development of highly efficient UV‐shielding composites are outlined. 相似文献
89.
Zhi-Ling Zhu Xiao-Dan Qiu Shuo Wu Yi-Tong Liu Ting Zhao Zhong-Hao Sun Zhuo-Rong Li Guang-Zhi Shan 《Molecules (Basel, Switzerland)》2021,26(1)
The novel coronavirus disease (2019-nCoV) has been affecting global health since the end of 2019, and there is no sign that the epidemic is abating. Targeting the interaction between the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) spike protein and the human angiotensin-converting enzyme 2 (ACE2) receptor is a promising therapeutic strategy. In this study, surface plasmon resonance (SPR) was used as the primary method to screen a library of 960 compounds. A compound 02B05 (demethylzeylasteral, CAS number: 107316-88-1) that had high affinities for S-RBD and ACE2 was discovered, and binding affinities (KD, μM) of 02B05-ACE2 and 02B05-S-RBD were 1.736 and 1.039 μM, respectively. The results of a competition experiment showed that 02B05 could effectively block the binding of S-RBD to ACE2 protein. Furthermore, pseudovirus infection assay revealed that 02B05 could inhibit entry of SARS-CoV-2 pseudovirus into 293T cells to a certain extent at nontoxic concentration. The compoundobtained in this study serve as references for the design of drugs which have potential in the treatment of COVID-19 and can thus accelerate the process of developing effective drugs to treat SARS-CoV-2 infections. 相似文献
90.
金属锂具有电位低、比容量高等突出优点,是极具吸引力的下一代高能量密度电池的负极材料,然而存在枝晶、死锂、副反应严重、库伦效率低、循环稳定性差等问题,限制了其实际应用。金属锂负极的成核是电化学沉积过程中的重要步骤,锂在集流体或导电载体上的均匀成核和稳定生长对于抑制枝晶死锂、提高充放电效率和循环性能具有关键作用。本文从成核机制与载体效应的角度概述了锂金属负极的研究进展,介绍了锂成核驱动力、异相成核模型、空间电荷模型等内容,分析了锂核尺寸及分布与过电位和电流密度的关系,并通过三维载体分散电流密度、异相晶核/电场诱导成核、晶格匹配等方面的研究实例讨论了载体修饰对锂负极的性能提升。 相似文献