排序方式: 共有72条查询结果,搜索用时 15 毫秒
1.
Layered Black Phosphorus: Strongly Anisotropic Magnetic,Electronic, and Electron‐Transfer Properties
Zdenk Sofer David Sedmidubský tpn Huber Jan Luxa Daniel Boua Chris Boothroyd Martin Pumera 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2016,128(10):3443-3447
Layered elemental materials, such as black phosphorus, exhibit unique properties originating from their highly anisotropic layered structure. The results presented herein demonstrate an anomalous anisotropy for the electrical, magnetic, and electrochemical properties of black phosphorus. It is shown that heterogeneous electron transfer from black phosphorus to outer‐ and inner‐sphere molecular probes is highly anisotropic. The electron‐transfer rates differ at the basal and edge planes. These unusual properties were interpreted by means of calculations, manifesting the metallic character of the edge planes as compared to the semiconducting properties of the basal plane. This indicates that black phosphorus belongs to a group of materials known as topological insulators. Consequently, these effects render the magnetic properties highly anisotropic, as both diamagnetic and paramagnetic behavior can be observed depending on the orientation in the magnetic field. 相似文献
2.
3.
4.
5.
《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2017,129(30):8981-8985
Studying electrical activities in cells, such as action potential and its propagation in neurons, requires a sensitive and non‐invasive analytical tool that can image local electrical signals with high spatial and temporal resolutions. Here we report a plasmonic‐based electrochemical impedance imaging technique to study transient electrical activities in single cells. The technique is based on the conversion of the electrical signal into a plasmonic signal, which is imaged optically without labels. We demonstrate imaging of the fast initiation and propagation of action potential within single neurons, and validate the imaging technique with the traditional patch clamp technique. We anticipate that the plasmonic imaging technique will contribute to the study of electrical activities in various cellular processes. 相似文献
6.
Dr. Irene Vassalini Dr. Laura Borgese Michele Mariz Prof. Stefano Polizzi Dr. Giuliana Aquilanti Prof. Paolo Ghigna Prof. Andrea Sartorel Prof. Vincenzo Amendola Prof. Ivano Alessandri 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2017,129(23):6689-6693
Oxygen evolution reaction (OER) is the most critical step in water splitting, still limiting the development of efficient alkaline water electrolyzers. Here we investigate the OER activity of Au–Fe nanoalloys obtained by laser-ablation synthesis in solution. This method allows a high amount of iron (up to 11 at %) to be incorporated into the gold lattice, which is not possible in Au–Fe alloys synthesized by other routes, due to thermodynamic constraints. The Au0.89Fe0.11 nanoalloys exhibit strongly enhanced OER in comparison to the individual pure metal nanoparticles, lowering the onset of OER and increasing up to 20 times the current density in alkaline aqueous solutions. Such a remarkable electrocatalytic activity is associated to nanoalloying, as demonstrated by comparative examples with physical mixtures of gold and iron nanoparticles. These results open attractive scenarios to the use of kinetically stable nanoalloys for catalysis and energy conversion. 相似文献
7.
8.
9.
10.