排序方式: 共有6条查询结果,搜索用时 31 毫秒
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Amy F Chan CK Zhao W Hyung J Ono M Sueyoshi T Kera S Nesher G Salomon A Segev L Seitz O Shpaisman H Schöll A Haeming M Böcking T Cahen D Kronik L Ueno N Umbach E Kahn A 《The journal of physical chemistry. B》2006,110(43):21826-21832
Monolayers of alkyl chains, attached through direct Si-C bonds to Si(111), via phosphonates to GaAs(100) surfaces, or deposited as alkyl-silane monolayers on SiO2, are investigated by ultraviolet and inverse photoemission spectroscopy and X-ray absorption spectroscopy. Exposure to ultraviolet radiation from a He discharge lamp, or to a beam of energetic electrons, leads to significant damage, presumably associated with radiation- or electron-induced H-abstraction leading to carbon-carbon double-bond formation in the alkyl monolayer. The damage results in an overall distortion of the valence spectrum, in the appearance of (occupied) states above the highest occupied molecular orbital of the alkyl molecule, and in a characteristic (unoccupied state) pi resonance at the edge of the carbon absorption peak. These distortions present a serious challenge for the interpretation of the electronic structure of the monolayer system. We show that extrapolation to zero damage at short exposure times eliminates extrinsic features and allows a meaningful extraction of the density of state of the pristine monolayer from spectroscopy measurements. 相似文献
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Nina Armon Ehud Greenberg Eitan Edri Ornit Nagler-Avramovitz Yuval Elias Hagay Shpaisman 《Advanced functional materials》2021,31(13):2008547
Assembly of materials into microstructures under laser guidance is attracting wide attention. The ability to pattern various materials and form 2D and 3D structures with micron/sub-micron resolution and less energy and material waste compared with standard top-down methods make laser-based printing promising for many applications, for example medical devices, sensors, and microelectronics. Assembly from liquids provides a smaller feature size than powders and has advantages over other states of matter in terms of relatively simple setup, easy handling, and recycling. However, the simplicity of the setup conceals a variety of underlying mechanisms, which cannot be identified simply according to the starting or resulting materials. This progress report surveys the various mechanisms according to the source of the material—preformed or locally synthesized. Within each category, methods are defined according to the driving force of material deposition. The advantages and limitations of each method are critically discussed, and the methods are compared, shedding light on future directions and developments required to advance this field. 相似文献
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Hagay Shpaisman Rotem Har‐Lavan Nir Stein Omer Yaffe Roman Korobko Oliver Seitz Ayelet Vilan David Cahen 《Advanced functional materials》2010,20(13):2181-2188
Using a semiconductor as the substrate to a molecular organic layer, penetration of metal contacts can be clearly identified by the study of electronic charge transport through the layer. A series of monolayers of saturated hydrocarbon molecules with varying lengths is assembled on Si or GaAs and the junctions resulting after further electronic contact is made by liquid Hg, indirect metal evaporation, and a “ready‐made” metal pad are measured. In contrast to tunneling characteristics, which are ambiguous regarding contact penetration, the semiconductor surface barrier is very sensitive to any direct contact with a metal. With the organic monolayer intact, a metal–insulator–semiconductor (MIS) structure results. If metal penetrated the monolayer, the junction behaves as a metal–semiconductor (MS) structure. By comparing a molecule‐free interface (MS junction) with a molecularly modified one (presumably MIS), possible metal penetration is identified. The major indicators are the semiconductor electronic transport barrier height, extracted from the junction transport characteristics, and the photovoltage. The approach does not require a series of different monolayers and data analysis is quite straightforward, helping to identify non‐invasive ways to make electronic contact to soft matter. 相似文献
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The authors propose a model (information layered architecture ILA) forTMN layering, that is based on grouping managed objects that share a common information perspective. The model provides an interfacing mechanism between layers that is based on referencing techniques between managed objects. We identified four levels ofTMN abstractions that can be used to represent a wide range of telecommunication processes. These are : customer, service, network and network element management. We then use the ILA to develop a model for the process of service activation. By doing so we demonstrate how modelling can be used as a technique to manage complicated processes. 相似文献
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Hagay Moshe Maarten Vanbel Dr. Ventsislav Kolev Valev Prof. Thierry Verbiest Dr. David Dressler Prof. Yitzhak Mastai 《Chemistry (Weinheim an der Bergstrasse, Germany)》2013,19(31):10295-10301
In this paper, we describe for the first time the synthesis of new chiral nanosized metal oxide surfaces based on chiral self‐assembled monolayers (SAMs) coated with metal oxide (TiO2) nanolayers. In this new type of nanosize chiral surface, the metal oxide nanolayers enable the protection of the chiral self‐assembled monolayers while preserving their enantioselective nature. The chiral nature of the SAM/TiO2 films was characterized by variety of unique techniques, such as second‐harmonic generation circular dichroism (SHG‐CD), quartz crystal microbalance, and chiral adsorption measurements with circular dichroism spectroscopy. The chiral resolution abilities of the SAMs coated with metal oxide (TiO2) nanolayers were investigated in the crystallization of a racemic mixture of threonine and glutamic acid. Our proposed methodology for the preparation of nanoscale chiral surfaces described in this article could open up opportunities in other fields of chemistry, such as chiral catalysis. 相似文献
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