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排序方式: 共有169条查询结果,搜索用时 29 毫秒
1.
通过可控的化学腐蚀法完成了对碳化硅量子点的制备,而后经超声空化作用及高速层析裁剪获得水相的碳化硅量子点溶液,利用化学偶联法,一步实现了SiC量子点的表面物化特性调控.通过对制备工艺参数调整前后量子点微观形貌、光谱特性的表征,结果表明:腐蚀次数、腐蚀剂组分及腐蚀剂配比是影响碳化硅量子点光致发光效率的主要因素,调整腐蚀次数与腐蚀剂组分的配比,同时加入偶联剂分析纯硫酸,当以V(HF):V(HNO3):V(H2 SO4)=6:1:1(体积比)的组分及比例腐蚀球磨后的β-SiC粉体时,制备出的水相碳化硅量子点光致发光相对强度最为理想.同时对碳化硅量子点表面巯基的形成机制与修饰稳定性进行了初步分析. 相似文献
2.
Dr. Ziyang Song Dr. Ling Miao Dr. Yaokang Lv Prof. Lihua Gan Prof. Mingxian Liu 《Angewandte Chemie (International ed. in English)》2023,62(38):e202309446
Organic small molecules as high-capacity cathodes for Zn-organic batteries have inspired numerous interests, but are trapped by their easy-dissolution in electrolytes. Here we knit ultrastable lock-and-key hydrogen-bonding networks between 2, 7-dinitropyrene-4, 5, 9, 10-tetraone (DNPT) and NH4+ charge carrier. DNPT with octuple-active carbonyl/nitro centers (H-bond acceptor) are redox-exclusively accessible for flexible tetrahedral NH4+ ions (H-bond donator) but exclude larger and rigid Zn2+, due to a lower activation energy (0.14 vs. 0.31 eV). NH4+ coordinated H-bonding chemistry conquers the stability barrier of DNPT in electrolyte, and gives fast diffusion kinetics of non-metallic charge carrier. A stable two-step 4e− NH4+ coordination with DNPT cathode harvests a high capacity (320 mAh g−1), a high-rate capability (50 A g−1) and an ultralong life (60,000 cycles). This finding points to a new paradigm for H-bond stabilized organic small molecules to design advanced zinc batteries. 相似文献
3.
Dongfang Cheng Ziyang Wei Zisheng Zhang Prof. Peter Broekmann Prof. Anastassia N. Alexandrova Prof. Philippe Sautet 《Angewandte Chemie (International ed. in English)》2023,62(20):e202218575
The dynamic restructuring of Cu surfaces in electroreduction conditions is of fundamental interest in electrocatalysis. We decode the structural dynamics of a Cu(111) electrode under reduction conditions by joint first-principles calculations and operando electrochemical scanning tunneling microscopy (ECSTM) experiments. Combining global optimization and grand canonical density functional theory, we unravel the potential- and pH-dependent restructuring of Cu(111) in acidic electrolyte. At reductive potential, Cu(111) is covered by a high density of H atoms and, below a threshold potential, Cu adatoms are formed on the surface in a (4×4) superstructure, a restructuring unfavorable in vacuum. The strong H adsorption is the driving force for the restructuring, itself induced by the electrode potential. On the restructured surface, barriers for hydrogen evolution reaction steps are low. Restructuring in electroreduction conditions creates highly active Cu adatom sites not present on Cu(111). 相似文献
4.
Zhen Wang Ziyang Li Tian Su Xiao Han Zhanwu Hou Yupeng Zheng Jiachen Liu Jun Xu Jeffy Yang Huadong Liu 《Electrophoresis》2021,42(6):793-799
Western blot (protein immunoblot) is a widely used analytical technique in molecular biology. Utilizing the specific recognizing primary antibody, proteins immobilized on various matrix are investigated by subsequent visualization steps, for example, by the horse radish peroxidase conjugated secondary antibody incubation. Methods to improve the sensitivity in protein identification or quantification are appreciated by biochemists. Herein, we report a new strategy to amplify Western blot signals by constructing a probe with proximal labeling and IgG targeting abilities. The R118G mutation attenuated the biotin-AMP binding affinity of the bacterial biotin ligase BirA*, offering a proximity-dependent labeling ability, which could be used as a signal amplifier. We built a BirA*-protein A fusion protein (BioEnhancer) that specifically binds to IgG and adds biotin tags to its proximal amine groups, enhancing the immunosignal of target proteins. In our experiments, the BioEnhancer system amplified the immunosignal by tenfold compared to the standard western blot. Additionally, our strategy could couple with other signal enhancement methods to further increase the western blot sensitivity. 相似文献
5.
Frontispiece: Enhanced Recyclability,Stability, and Selectivity of CdS/C@Fe3O4 Nanoreactors for Orientation Photodegradation of Ciprofloxacin 下载免费PDF全文
6.
Flexible,Stretchable, and Rechargeable Fiber‐Shaped Zinc–Air Battery Based on Cross‐Stacked Carbon Nanotube Sheets 下载免费PDF全文
Yifan Xu Ye Zhang Ziyang Guo Jing Ren Prof. Yonggang Wang Prof. Huisheng Peng 《Angewandte Chemie (International ed. in English)》2015,54(51):15390-15394
The fabrication of flexible, stretchable and rechargeable devices with a high energy density is critical for next‐generation electronics. Herein, fiber‐shaped Zn–air batteries, are realized for the first time by designing aligned, cross‐stacked and porous carbon nanotube sheets simultaneously that behave as a gas diffusion layer, a catalyst layer, and a current collector. The combined remarkable electronic and mechanical properties of the aligned carbon nanotube sheets endow good electrochemical properties. They display excellent discharge and charge performances at a high current density of 2 A g?1. They are also flexible and stretchable, which is particularly promising to power portable and wearable electronic devices. 相似文献
7.
Magnesium carbonate whiskers/cellulose fibers hybrid paper was successfully prepared via in situ synthesis process, and the flame retardancy and tensile strength properties were investigated. The effects of magnesium salt type, initial magnesium salt concentration, temperature, time and pH value were also detected. The hybrid paper was characterized by X-ray diffraction, Fourier transform infrared spectroscopy, scanning electron microscopy with energy dispersive X-ray spectroscopy and thermogravimetry-derivative thermogravimetry techniques, respectively. The results showed that the same whiskers/fibers hybrid paper could be prepared from different magnesium salts. If the pH was above 9.4, hydrated basic magnesium carbonate would be created, which would lead to the decrease of oxygen index (OI). Reaction time had no effect on the OI and tensile strength of the hybrid paper. Under the optimized conditions, the OI of the hybrid paper reached 28 %. The in situ synthesis process was much better than the direct addition process. 相似文献
8.
9.
熵是物理化学的基本状态参量,在统计力学和热力学中处于核心位置.按照玻尔兹曼的微观解释,熵可以由孤立系统微观状态的数目(W)给出,即S=kBlnW,这里kB为玻尔兹曼常数[1,2].根据此公式,微观状态数越多,系统越混乱,熵越大,所以熵常被视作体系无序程度的度量.但熵增仅对应体系微观状态数的增加,与可观测的结构有序程度无关[3~5].在一些典型的软物质体系中,结构越有序熵反而越大,如胶体硬球在随机密堆积点的有序结晶[6]及描述各向异性棒状分子从各向同性相到向列相转变的Onsager原理[7]. 相似文献
10.
Synthesis of Two‐Dimensional Transition‐Metal Phosphates with Highly Ordered Mesoporous Structures for Lithium‐Ion Battery Applications 下载免费PDF全文
Dan Yang Dr. Ziyang Lu Dr. Xianhong Rui Xiao Huang Dr. Hai Li Dr. Jixin Zhu Wenyu Zhang Prof. Yeng Ming Lam Prof. Huey Hoon Hng Prof. Hua Zhang Prof. Qingyu Yan 《Angewandte Chemie (International ed. in English)》2014,53(35):9352-9355
Materials with ordered mesoporous structures have shown great potential in a wide range of applications. In particular, the combination of mesoporosity, low dimensionality, and well‐defined morphology in nanostructures may exhibit even more attractive features. However, the synthesis of such structures is still challenging in polar solvents. Herein, we report the preparation of ultrathin two‐dimensional (2D) nanoflakes of transition‐metal phosphates, including FePO4, Mn3(PO4)2, and Co3(PO4)2, with highly ordered mesoporous structures in a nonpolar solvent. The as‐obtained nanoflakes with thicknesses of about 3.7 nm are constructed from a single layer of parallel‐packed pore channels. These uniquely ordered mesoporous 2D nanostructures may originate from the 2D assembly of cylindrical micelles formed by the amphiphilic precursors in the nonpolar solvent. The 2D mesoporous FePO4 nanoflakes were used as the cathode for a lithium‐ion battery, which exhibits excellent stability and high rate capabilities. 相似文献