Yuguang Cai scite author profile

Hexagonally patterned lysozyme nanoarrays have been assembled on silicon wafers by combining nanosphere lithography and surface silane chemistry using vapor and solution deposition processes. The patterned protein regions extend over cm sized regions, and the size of each island is approximately 120 nm for the solution-prepared template and approximately 60 nm for the vapor-prepared template. Antibody test indicates that the patterned lysozyme maintains its bioactivity on the surface. This new approach offers a fast and reliable method to fabricate protein arrays over large areas with feature sizes comparable to scanning-probe based techniques.

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Chiral Pair Monolayer Adsorption of Iodine-Substituted Octadecanol Molecules on Graphite

Cai

Bernasek

2003

J. Am. Chem. Soc.

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High-resolution scanning tunneling microscopy has been used to examine the adsorbate structures formed when a racemic mixture of (9R,10R)-9,10-diiodooctadecan-1-ol and (9S,10S)-9,10-diiodooctadecan-1-ol is adsorbed at the basal plane of highly ordered pyrolytic graphite. The herringbone structure characteristic of the adsorption of long-chain molecules on graphite is observed. Close examination of the micrographs indicates a unique structure in which the chiral molecules adsorb in pairs, with one enantiomer filling half of the unit cell, and the other enantiomer filling the other half. Instead of forming separate chiral domains, as is sometimes observed when a racemic mixture adsorbs on an achiral surface, chiral pairs are formed and the pairs form an ordered monolayer, exposing opposite faces of the same molecule. An achiral racemic mixture is observed to form a chiral structure on an achiral surface in the regions of the surface examined here.

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High resolution non-contact AFM imaging of liquids condensed onto chemically nanopatterned surfaces

et al. 2006

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Automatic and Subsequent Dissolution and Precipitation Process in Inorganic Macroionic Solutions

2004

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We report an interesting phenomenon in the NaCl-containing aqueous solution of {Mo72Fe30} macroions, where dissolution and precipitation processes of hydrophilic macroions automatically and subsequently occur without changing external conditions or chemical reactions. Our previous work indicates that {Mo72Fe30} macroions tend to slowly self-assemble into single-layer, vesicle-like "blackberries". Such macroions have two solute states in solutions: the entropy-favored general state (homogeneous distribution) and the free-energy favored second solute state (blackberries). With additional salts, the originally stable blackberries become less stable due to their shortened screening length, and they tend to further aggregate and precipitate at much lower concentrations. Therefore, in such a solution, we can observe a subsequent process: crystal solids --> homogeneous single macroion solution --> homogeneous blackberry solution --> precipitates containing noncrystalline solids. In other words, we observed the behaviors of both soluble inorganic ions and colloids in the same solution due to the unique features of the macroions. Static and dynamic laser light scattering, as well as AFM measurements, were used to characterize both the macroionic solutions and the precipitates.

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Yuguang Cai

Large-Scale Fabrication of Protein Nanoarrays Based on Nanosphere Lithography

Chiral Pair Monolayer Adsorption of Iodine-Substituted Octadecanol Molecules on Graphite

High resolution non-contact AFM imaging of liquids condensed onto chemically nanopatterned surfaces

Automatic and Subsequent Dissolution and Precipitation Process in Inorganic Macroionic Solutions

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