Qixian Zhang scite author profile

Polydisperse, functionalized, chemically converted graphene (f-CCG) nanosheets, which can be homogeneously distributed into water, ethanol, DMF, DMSO and 3-aminopropyltriethoxysilane (APTS), were obtained via facile covalent functionalization with APTS. The resulting f-CCG nanosheets were characterized by FTIR, XPS, TGA, EDX, AFM, SEM, and TEM. Furthermore, the f-CCG nanosheets as reinforcing components were extended into silica monoliths. Compressive tests revealed that the compressive failure strength and the toughness of f-CCG-reinforced APTS monoliths at 0.1 wt% functionalized, chemically converted graphene sheets compared with the neat APTS monolith were greatly improved by 19.9% and 92%, respectively.

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Covalent functionalization of polydisperse chemically-converted graphene sheets with amine-terminated ionic liquid

Yang

et al. 2009

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Water-Soluble Graphene Covalently Functionalized by Biocompatible Poly-l-lysine

et al. 2009

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Graphene sheets functionalized covalently with biocompatible poly-l-lysine (PLL) were first synthesized in an alkaline solution. PLL-functionalized graphene is water-soluble and biocompatible, which makes it a novel material promising for biological applications. Graphene sheets played an important role as connectors to assemble these active amino groups of poly-l-lysine, which provided a very biocompatible environment for further functionalization, such as attaching bioactive molecules. As an example, an amplified biosensor toward H(2)O(2) based on linking peroxidase onto PLL-functionalized graphene was investigated.

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Qixian Zhang

Covalent functionalization of chemically converted graphene sheets via silane and its reinforcement

Covalent functionalization of polydisperse chemically-converted graphene sheets with amine-terminated ionic liquid

Water-Soluble Graphene Covalently Functionalized by Biocompatible Poly-l-lysine

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