Search results for " monolayer"

showing 3 items of 63 documents

Potential-assisted deposition of mixed alkanethiol self-assembled monolayers

2010

Abstract Preparation of self-assembled monolayers (SAMs) usually involves passive incubation. The recently developed potential-assisted deposition is indeed more selective as well as 100-fold faster than passive adsorption, thereby enhancing the reproducibility of the monolayer deposition. This article aims to identify the electrodeposition conditions necessary to prepare mixed alkanethiol SAMs on gold surface. Parameters such as concentrations in solution, electrode polarization and deposition time were examined for two chain lengths, C 3 (mercaptopropionic acid, MPA) and C 18 (octadecanethiol, ODT). The kinetics and composition of the SAMs were systematically characterized by reductive st…

reductive desorptionGeneral Chemical EngineeringAnalytical chemistry02 engineering and technology010402 general chemistry01 natural sciencesAdsorptionEllipsometryDesorption[ CHIM.OTHE ] Chemical Sciences/OtherMonolayerDeposition (phase transition)oxidative adsorptionSurface plasmon resonanceComputingMilieux_MISCELLANEOUSChemistrySelf-assembled monolayer021001 nanoscience & nanotechnologybinary SAMs0104 chemical scienceselectrochemistrySelf-assembly0210 nano-technology[CHIM.OTHE]Chemical Sciences/Othersurface plasmon resonanceellipsometry
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Influence of a Thiolate Chemical Layer on GaAs (100) Biofunctionalization: An Original Approach Coupling Atomic Force Microscopy and Mass Spectrometr…

2013

International audience; Widely used in microelectronics and optoelectronics; Gallium Arsenide (GaAs) is a III-V crystal with several interesting properties for microsystem and biosensor applications. Among these; its piezoelectric properties and the ability to directly biofunctionalize the bare surface, offer an opportunity to combine a highly sensitive transducer with a specific bio-interface; which are the two essential parts of a biosensor. To optimize the biorecognition part; it is necessary to control protein coverage and the binding affinity of the protein layer on the GaAs surface. In this paper; we investigate the potential of a specific chemical interface composed of thiolate molec…

self-assembled thiolate monolayersMaterials scienceAnalytical chemistryproteins grafting02 engineering and technology010402 general chemistryMass spectrometrylcsh:Technology01 natural sciencesArticleGallium arsenideGaAs; self-assembled thiolate monolayers; proteins grafting; AFM; MALDI-TOF MSchemistry.chemical_compoundMonolayerMALDI-TOF MSMoleculeMicroelectronicsGeneral Materials Science[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronicslcsh:Microscopylcsh:QC120-168.85lcsh:QH201-278.5lcsh:Tbusiness.industryGaAs021001 nanoscience & nanotechnology0104 chemical sciencesMatrix-assisted laser desorption/ionizationchemistryChemical engineeringlcsh:TA1-2040Docking (molecular)lcsh:Descriptive and experimental mechanics[ SPI.NANO ] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronicslcsh:Electrical engineering. Electronics. Nuclear engineeringAFMlcsh:Engineering (General). Civil engineering (General)0210 nano-technologybusinesslcsh:TK1-9971BiosensorMaterials
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Carboxylic derivatives of spin-crossover complexes in switchable materials and surfaces

2022

Los compuestos de transición de espín (SCO, de las siglas en inglés spin-crossover) son un ejemplo perfecto de biestabilidad molecular. La transición entre sus estados de alto y bajo espín (HS y LS, de las siglas en inglés, High Spin y Low Spin, respectivamente) se puede controlar mediante estímulos externos como la temperatura, presión, luz, por nombrar unos pocos. Esto los convierte en compuestos muy interesantes para aplicaciones tales como espintrónica, almacenamiento de memoria y dispositivos conmutables. El interés científico en este tipo de moléculas y la búsqueda de aplicaciones ha ido creciendo a lo largo de los años. Para ello, la deposición de dichos compuestos es el primer paso …

spin-crossoverUNESCO::QUÍMICAself-assembled monolayers:QUÍMICA [UNESCO]
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