Michael Himmelhaus scite author profile

Adsorption of docosanethiol (CH3(CH2)21SH) onto polycrystalline gold from ethanol solution was investigated by nonlinear vibrational spectroscopy. The formation of the self-assembled monolayer (SAM) was monitored by recording of the temporal evolution of the C−H stretching modes. Three different steps with significantly different time scales were identified. The fastest step in the adsorption process is related to the Au−S bond formation. Progressing with a rate constant of 2500−3000 L mol-1 s-1, it is characterized by hydrocarbon chains with a high fraction of gauche kinks. The second step proceeds 3−4 times more slowly and comprises the straightening of the alkane chains. During the first two steps a pronounced band around 2813 cm-1 appears, which is interpreted as mode softening of the C−H vibrations due to the interaction with the substrate. The time scale of the final step is a factor of 35−70 slower than the rate of chain stretching and encompasses the reorientation of the terminal methyl end groups. The methylene group adjacent to the methyl group exhibits the same temporal behavior and thus behaves oppositely to the other methylene groups. The SFG data imply that the last few percent of the thiol molecules adsorbing produce the complete monolayer by inducing the transition from a high number of gauche defects to an all-trans conformation. The sequence of changes in the vibrational spectra suggests an ordering and annealing of the film from the interface to the film surface.

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Increased Lateral Density in Alkanethiolate Films on Gold by Mercury Adsorption

Thome

et al. 1998

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We present a method for increasing the lateral chain density in self-assembled monolayers (SAMs) of alkanethiols on polycrystalline gold. This method relies on exposure of the alkanethiolate monolayers to mercury vapor and subsequent reimmersion into the thiol solution. Mercury adsorption on the gold surface induces a structural rearrangement in the alkanethiolate monolayers, as indicated by changes in dichroism in the Fourier transform infrared (FTIR) spectra, in line shape in the sum frequency generation (SFG) spectra, and in the macroscopic wetting behavior of the monolayers. X-ray photoelectron spectroscopy (XPS) data show that saturation of the thiolate samples with mercury occurs after 20−30 min of exposure to air saturated with mercury vapor. For 100 nm evaporated gold films a mercury bulk concentration of 14−16 atom % was determined by energy-dispersive X-ray analysis (EDX). Time-of-flight secondary ion mass spectroscopy (ToF-SIMS) data indicate that after mercury adsorption the monolayers consist of gold thiolate and mercury thiolate molecules. From the FTIR and XPS data we conclude that the mercury-exposed SAMs exhibit an inhomogeneous structure with differently tilted domains. As determined from the IR experiments, the average tilt angle of the alkyl chains in hexadecanethiolate monolayers decreases by ∼16° by mercury adsorption and by an additional ∼3° after reimmersion into the thiol solution. The corresponding changes obtained from near edge X-ray absorption fine structure (NEXAFS) spectra are ∼9° and ∼3°, respectively.

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Cap-shaped gold nanoparticles for an optical biosensor

Himmelhaus

Takei

2000

Sensors and Actuators B: Chemical

187

145

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Covalent Coupling of Antibodies to Self-Assembled Monolayers of Carboxy-Functionalized Poly(ethylene glycol): Protein Resistance and Specific Binding of Biomolecules

et al. 2003

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We report the synthesis, film formation, protein resistance, and specific antigen binding capability of a carboxy-functionalized poly(ethylene glycol) alkanethiol [HOOC-CH2-(OCH2-CH2)n-O-(CH2)11-SH, n ) 22-45]. Despite its polymeric character, the molecule is found to form a densely packed self-assembled monolayer on polycrystalline gold, if adsorbed from dimethylformamide solution. Due to its chain length distribution, the carboxy tailgroups are expected to be partially buried within the film and, thus, do not affect the protein repulsive characteristics of the ethylene glycol moieties when exposed to fibrinogen and immunoglobulin G (IgG). However, if activated by N-hydroxysuccinimide and N-(3-dimethylaminopropyl)-N-ethylcarbodiimide hydrochloride, antibodies can be covalently coupled to the monolayer. While resistance to nonspecific fibrinogen and IgG adsorption is maintained for this biologically active layer, it exhibits high specific antigen binding capacity. The performance of this highly selective surface is compared to that of antibody films prepared by standard aminosilane chemistry.

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