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W3093531400 abstract "Currently available bioplatforms such as microarrays and surface plasmon resonators are unable to combine high-throughput multiplexing with label-free detection. As such, emerging microelectromechanical systems (MEMS) and microplasmonics platforms offer the potential for high-resolution, high-throughput label-free sensing of biological and chemical analytes. Therefore, the search for materials capable of combining multiplexing and label-free quantitation is of great significance. Recently, interest in silicon carbide (SiC) as a suitable material in numerous biomedical applications has increased due to its well-explored chemical inertness, mechanical strength, bio- and hemocompatibility, and the presence of carbon that enables the transfer-free growth of graphene. SiC is also multifunctional as both a wide-band-gap semiconductor and an efficient low-loss plasmonics material and thus is ideal for augmenting current biotransducers in biosensors. Additionally, the cubic variant, 3C-SiC, is an extremely promising material for MEMS, being a suitable platform for the easy micromachining of microcantilevers, and as such capable of realizing the potential of real time miniaturized multiplexed assays. The generation of an appropriately functionalized and versatile organic monolayer suitable for the immobilization of biomolecules is therefore critical to explore label-free, multiplexed quantitation of biological interactions on SiC. Herein, we address the use of various silane self-assembled monolayers (SAMs) for the covalent functionalization of monocrystalline 3C-SiC films as a novel platform for the generation of functionalized microarray surfaces using high-throughput glycan arrays as the model system. We also demonstrate the ability to robotically print high throughput arrays on free-standing SiC microstructures. The implementation of a SiC-based label-free glycan array will provide a proof of principle that could be extended to the immobilization of other biomolecules in a similar SiC-based array format, thus making potentially significant advances to the way biological interactions are studied." @default.
W3093531400 created "2020-10-29" @default.
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W3093531400 date "2020-10-26" @default.
W3093531400 modified "2023-10-10" @default.
W3093531400 title "Functional Microarray Platform with Self-Assembled Monolayers on 3C-Silicon Carbide" @default.
W3093531400 cites W1010787665 @default.
W3093531400 cites W1968105258 @default.
W3093531400 cites W1970998711 @default.
W3093531400 cites W1980027223 @default.
W3093531400 cites W1981988224 @default.
W3093531400 cites W1982903780 @default.
W3093531400 cites W1983949298 @default.
W3093531400 cites W1990259996 @default.
W3093531400 cites W1993710369 @default.
W3093531400 cites W2000066878 @default.
W3093531400 cites W2007324115 @default.
W3093531400 cites W2009401394 @default.
W3093531400 cites W2015589795 @default.
W3093531400 cites W2015701179 @default.
W3093531400 cites W2027409866 @default.
W3093531400 cites W2031241408 @default.
W3093531400 cites W2036072706 @default.
W3093531400 cites W2036706275 @default.
W3093531400 cites W2038637564 @default.
W3093531400 cites W2044546195 @default.
W3093531400 cites W2046442543 @default.
W3093531400 cites W2047694213 @default.
W3093531400 cites W2049140820 @default.
W3093531400 cites W2051908489 @default.
W3093531400 cites W2051932965 @default.
W3093531400 cites W2056028951 @default.
W3093531400 cites W2058217698 @default.
W3093531400 cites W2066992489 @default.
W3093531400 cites W2069254963 @default.
W3093531400 cites W2075754351 @default.
W3093531400 cites W2088141154 @default.
W3093531400 cites W2088262879 @default.
W3093531400 cites W2090079322 @default.
W3093531400 cites W2091354531 @default.
W3093531400 cites W2094067775 @default.
W3093531400 cites W2094129979 @default.
W3093531400 cites W2098831830 @default.
W3093531400 cites W2099582861 @default.
W3093531400 cites W2101980501 @default.
W3093531400 cites W2102274661 @default.
W3093531400 cites W2102994457 @default.
W3093531400 cites W2109033574 @default.
W3093531400 cites W2112751173 @default.
W3093531400 cites W2116350927 @default.
W3093531400 cites W2120018526 @default.
W3093531400 cites W2131492616 @default.
W3093531400 cites W2131946032 @default.
W3093531400 cites W2152735594 @default.
W3093531400 cites W2162185196 @default.
W3093531400 cites W2165206726 @default.
W3093531400 cites W2169735494 @default.
W3093531400 cites W2171782561 @default.
W3093531400 cites W2293324978 @default.
W3093531400 cites W2323943326 @default.
W3093531400 cites W2333518991 @default.
W3093531400 cites W2470055751 @default.
W3093531400 cites W2509591599 @default.
W3093531400 cites W2552526939 @default.
W3093531400 cites W2735465793 @default.
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W3093531400 cites W2742281416 @default.
W3093531400 cites W2768644974 @default.
W3093531400 cites W2887959795 @default.
W3093531400 cites W2889524412 @default.
W3093531400 cites W7419881 @default.
W3093531400 doi "https://doi.org/10.1021/acs.langmuir.0c01306" @default.
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