Modeling Gold Film Fracture during a Laser-Assisted Bioprinting Process

A new specimen preparation technique for visualizing macromolecules by conventional transmission electron microscopy has been developed. In this technique the biopolymer-molecule is embedded in a thin monocrystalline gold foil. Such embedding can be performed in the following way: the biopolymer is deposited on an epitaxially-grown thin single-crystal gold film. The molecule is then occluded by further epitaxial growth. In such an epitaxial sandwich an occluded molecule is expected to behave as a crystal-lattice defect and give rise to contrast in the electron microscope.The resolution of the method should be limited only by the precision with which the epitaxially grown gold reflects the details of the molecular structure and, in favorable cases, can approach the lattice resolution limit.In order to estimate the strength of the contrast due to the void-effect arising from occlusion of the DNA-molecule in a gold crystal some calculations were performed.

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Nano-Folded Gold Electrocatalysts Enhance the Selectivity of Carbon Dioxide Reduction

10.26434/chemrxiv.8296193 ◽

2019 ◽

Author(s):

Kam Sang Kwok ◽

Yuxuan Wang ◽

Michael Cao ◽

Hao Shen ◽

Weinan Xu ◽

...

Keyword(s):

Carbon Dioxide ◽

Mass Transport ◽

Gold Film ◽

X Ray Diffraction ◽

Thin Gold Film ◽

Faradaic Efficiency ◽

X Ray ◽

Transmission Electron ◽

Carbon Monoxide Formation ◽

Catalytic Interfaces

<p>The local structure and geometry of catalytic interfaces can influence the selectivity of chemical reactions. Here, using a pre-strained polymer, we uniaxially compress a thin gold film to form a nano-folded catalyst. We observe two kinds of folds and can tune the ratio of loose to tight folds by varying the extent of pre-strain in the polymer. We characterize the nano-folded catalysts using x-ray diffraction, scanning, and transmission electron microscopy. We observe grain reorientation and coarsening in the nano-folded gold catalysts. Electroreduction of carbon dioxide with these nano-folded catalysts reveals an enhancement of Faradaic efficiency for carbon monoxide formation by a factor of about four. This result suggests that electrolyte mass transport limitations and an increase of the local pH in the tight folds of the catalyst outweigh the effects of alterations in grain characteristics. Together, our studies demonstrate that nano-folded geometries can significantly alter grain characteristics, mass transport, and catalytic selectivity. </p>

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Surface Acoustic Wave Biosensor with Laser-Deposited Gold Layer Having Controlled Porosity

Chemosensors ◽

10.3390/chemosensors9070173 ◽

2021 ◽

Vol 9 (7) ◽

pp. 173

Author(s):

Dana Miu ◽

Izabela Constantinoiu ◽

Valentina Dinca ◽

Cristian Viespe

Keyword(s):

Acoustic Wave ◽

Surface Acoustic Wave ◽

Gold Film ◽

Good Control ◽

Gold Layer ◽

Porous Gold ◽

Deposition Parameters ◽

Acoustic Wave Sensors ◽

Controlled Porosity ◽

Wave Sensors

Laser-deposited gold immobilization layers having different porosities were incorporated into love wave surface acoustic wave sensors (LW-SAWs). Variation of pulsed laser deposition parameters allows good control of the gold film morphology. Biosensors with various gold film porosities were tested using the biotin–avidin reaction. Control of the Au layer morphology is important since the biotin and avidin layer morphologies closely follow that of the gold. The response of the sensors to biotin/avidin, which is a good indicator of biosensor performance, is improved when the gold layer has increased porosity. Given the sizes of the proteins, the laser-deposited porous gold interfaces have optimal pore dimensions to ensure protein stability.

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Gold-Silver Alloy Film Based Colorful SPR Imaging Sensor with High Sensitivity for Quantitative Chemical and Biological Detection

Proceedings ◽

10.3390/proceedings2130931 ◽

2018 ◽

Vol 2 (13) ◽

pp. 931

Author(s):

Shuang Liang ◽

Ran Gao ◽

Mengying Zhang ◽

Ning Xue ◽

Zhi-mei Qi

Keyword(s):

Spectral Range ◽

Gold Film ◽

Color Image ◽

Quantitative Relationship ◽

Alloy Film ◽

Resonant Wavelength ◽

Quantitative Detection ◽

Silver Alloy ◽

Refractive Index Sensitivity ◽

Gold Silver

A gold-silver alloy film based spectral surface plasmon resonance imaging (SPRi) sensor has been prepared for in-situ quantitative detection of biochemical analytes at the sensor surface. This novel sensor has lower detection cost yet higher sensitivity relative to the conventional counterpart with a gold film. Using the laboratory-made multifunctional SPR sensing platform, both the resonant color images and the resonant spectra for the Au-Ag alloy film were measured at different incident angles. The quantitative relationship between the resonant wavelength and the average hue of corresponding resonant color image was established. With this relationship the most hue-sensitive spectral range was determined. After setting the initial resonant wavelength in the hue-sensitive spectral range, the refractive-index sensitivity of the Au-Ag alloy film based SPRi sensor was measured as Δhue/Δnc = 29,879/RIU, being 8 times higher than that obtained with the gold-film SPRi sensor. The immunodetection of benzo(a)pyrene (BaP) in water was fulfilled using the Au-Ag alloy film based SPRi sensor. The average hue of the SPR color image linearly increases with increasing the BaP concentration up to C = 0.5 μg/L and the slope is Δhue/ΔC = 132.2/(μg/L). The sensor is responsive to a change of BaP concentration as low as ΔC = 0.01 μg/L.

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