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排序方式: 共有691条查询结果,搜索用时 500 毫秒
1.
Wang Xinglei Guo Hangxu Wang Fan Tan Tianshe Wu Hang Zhang Hongxia 《Journal of Radioanalytical and Nuclear Chemistry》2020,324(3):1151-1165
Journal of Radioanalytical and Nuclear Chemistry - In this study, the halloysite nanotubes was characterized and the adsorption of Th(IV) and U(VI) on halloysite nanotubes was investigated as a... 相似文献
2.
采用水热碳化法成功制备了不同碳含量的CdS@C纳米颗粒,同时对CdS@C的晶体结构、形貌、光学性能、光电化学和光催化性能进行了研究。实验结果表明本方法制备的碳包覆CdS纳米颗粒外壳为碳层,内核为六方纤锌矿结构CdS颗粒。CdS@C颗粒分散性良好,颗粒形貌主要为类球形,粒度均匀。X射线光电子能谱(XPS)证实CdS@C颗粒表面负载的碳主要以非晶碳形式存在。紫外-可见光光谱(UV-Vis)表明CdS@C纳米晶中表面碳的敏化作用提高了可见光响应范围,使得能隙变窄。光致发光光谱(PL)表明碳包覆CdS@C纳米颗粒的发光强度比纯CdS弱,有效抑制了光生载流子的复合。瞬态光电流响应和电化学阻抗谱(EIS)说明CdS@C纳米复合材料更有效促进电子-空穴对分离和提高转移效率。CdS@C纳米复合材料在可见光辐射下表现出良好的光催化活性和稳定性,其中·O2-和h+在光催化中起主要作用。 相似文献
3.
以二水氯化铜(CuCl2·2H2O)、硅酸钠(Na2SiO3)、钼酸钠(Na2 MoO4)和2,6-二甲基-3,5-二(吡唑-3-基)吡啶(简写为H2L)为原料,通过水热反应,成功地合成了一个一维链状Keggin型多酸基杂化化合物[Cu2(H3L)2](SiMo12O40).通过X-射线单晶衍射、TGA、IR以及元素分析对该化合物的结构进行表征.测试结果表明,该化合物属于三斜晶系,P-1空间群,晶胞参数a=1.1689(5) nm,b=1.2157(5) nm,c=1.2233(5) nm,α=62.066(5)°,β=62.833(5)°,γ =74.789(5)°,V=1.363 8(10) nm3,Z=2,R1=0.082 4,wR2=0.174 5.电化学分析结果表明该化合物对亚硝酸盐的还原具有良好的电催化效果. 相似文献
4.
5.
Water-soluble triplet sensitizer with permethyl-β-cyclodextrin(PMCD) grafting on a Schiff-base Pt(Ⅱ)complex(Pt-2),in which PMCD unit serves as a host for binding the acceptors and the Schiff-base Pt(Ⅱ)complex serves as a triplet sensitizer,was synthesized to investigate the effect of supramolecular complexation and assembly on the triplet-triplet annihilation upconversion emission in water.9,10-Diphenylanthracence(DPA) carboxylate(A-1) and its dimer(A-2) in which two DPA carboxylate were covalently linked with an alkyl chain were synthesized as triplet acceptors which also play a role of guest molecules for PMCD.A-1 and A-2 showed high affinity with PMCD,and A-2 can readily aggregate in water and form micron sized assemblies due to the hydrophobic effect and π-π stacking of anthracene core in A-2.The efficiency of TTA-UC was demonstrated to be enhanced by a synergistic effect of host-guest complexation of Pt-2 with A-2 and the self-aggregation of the acceptor A-2,which facilitated the energy transfer and energy fusion among donor and acceptor. 相似文献
6.
Juan Xie Liu Zhiyong Li MeiXia Xu Yongquan Du Hongxia 《Russian Journal of Physical Chemistry A, Focus on Chemistry》2020,94(1):205-210
Russian Journal of Physical Chemistry A - Well dispersed SnO2/ZnO composites with platelike shape were synthesized via a facile method. X-ray diffraction (XRD), field emission scanning electron... 相似文献
7.
多齿配体2-咪唑乙酸(Hima)、4,4'-连吡啶分别与金属盐Pb(NO3)2和AgNO3反应,得到[Pb2(4,4'-bipy)(ima)(NO3)3]n(1, 3D framework)和[Ag4(4, 4'-bipy)3(ima)2(NO3)2(H2O)2]n(2, 3D framework)两个配位聚合物。根据配位聚合物的结构特点,研究了这两个配位聚合物荧光性质等物理化学性能。配位聚合物1在最大激发波长(λex=346 nm)激发下,荧光的最大发射波长为552 nm,配位聚合物2在最大激发波长(λex=369 nm)激发下,荧光的最大发射波长为444 nm。这可能是由于金属和配体之间发生了电荷转移(LMCT)。 相似文献
8.
Dr. Hui Zhang Chuqi Wang Hongxia Luo Junliang Chen Prof. Min Kuang Prof. Jianping Yang 《Angewandte Chemie (International ed. in English)》2023,62(5):e202217071
The electrochemical nitrate reduction reaction (NO3RR) is an appealing technology for regulating the nitrogen cycle. Metallic iron is one of the well-known electrocatalysts for NO3RR, but it suffers from poor durability due to leaching and oxidation of iron during the electrocatalytic process. In this work, a graphene-nanochainmail-protected iron nanoparticle (Fe@Gnc) electrocatalyst is reported. It displays superior nitrate removal efficiency and high nitrogen selectivity. Notably, the catalyst delivers exceptional stability and durability, with the nitrate removal rate and nitrogen selectivity remained ≈96 % of that of the first time after up to 40 cycles (24 h for one cycle). As expected, the conductive graphene nanochainmail provides robust protection for the internal iron active sites, allowing Fe@Gnc to maintain its long-lasting electrochemical nitrate catalytic activity. This research proposes a workable solution for the scientific challenge of poor lasting ability of iron-based electrocatalysts in large-scale industrialization. 相似文献
9.
Tao Song Dr. Da Wang Prof. Hongxia Wang Dr. Jia Yu Prof. Siqi Shi 《Angewandte Chemie (International ed. in English)》2023,62(31):e202305004
Integrating the advantages of both inorganic ceramic and organic polymer solid-state electrolytes, small-molecule solid-state electrolytes represented by LiI-3-hydroxypropionitrile (LiI-HPN) inorganic–organic hybrid systems possess good interfacial compatibility and high modulus. However, their lack of intrinsic Li+ conduction ability hinders potential application in lithium metal batteries until now, despite containing LiI phase composition. Herein, inspired by evolution tendency of ionic conduction behaviors together with first-principles molecular dynamics simulations, we propose a stepped-amorphization strategy to break the Li+ conduction bottleneck of LiI-HPN. It involves three progressive steps of composition (LiI-content increasing), time (long-time standing), and temperature (high-temperature melting) regulations, to essentially construct a small-molecule-based composite solid-state electrolyte with intensified amorphous degree, which realizes efficient conversion from an I− to Li+ conductor and improved conductivity. As a proof, the stepped-optimized LiI-HPN is successfully operated in lithium metal batteries cooperated with Li4Ti5O12 cathode to deliver considerable compatibility and stability over 250 cycles. This work not only clarifies the ionic conduction mechanisms of LiI-HPN inorganic–organic hybrid systems, but also provides a reasonable strategy to broaden the application scenarios of highly compatible small-molecule solid-state electrolytes. 相似文献
10.
Fangzhou Zhang Jiamei Luo Junliang Chen Hongxia Luo Miaomiao Jiang Chenxi Yang Prof. Hui Zhang Prof. Jun Chen Prof. Angang Dong Prof. Jianping Yang 《Angewandte Chemie (International ed. in English)》2023,62(38):e202310383
One-dimensional fiber architecture serves as an excellent catalyst support. The orderly arrangement of active materials on such a fiber substrate can enhance catalytic performance by exposing more active sites and facilitating mass diffusion; however, this remains a challenge. We developed an interfacial assembly strategy for the orderly distribution of metal nanocrystals on different fiber substrates to optimize their electrocatalytic performance. Using electrochemical nitrate reduction reaction (NO3−RR) as a representative reaction, the iron-based nanofibers (Fe/NFs) assembly structure achieved an excellent nitrate removal capacity of 2317 mg N/g Fe and N2 selectivity up to 97.2 %. This strategy could promote the rational design and synthesis of fiber-based electrocatalysts. 相似文献