TY - JOUR
T1 - Graphene-Templated Synthesis of Magnetic Metal Organic Framework Nanocomposites for Selective Enrichment of Biomolecules
AU - Cheng, Gong
AU - Wang, Zhi Gang
AU - Denagamage, Sachira
AU - Zheng, Si Yang
N1 - Publisher Copyright:
© 2016 American Chemical Society.
PY - 2016/4/27
Y1 - 2016/4/27
N2 - Successful control of homogeneous and complete coating of graphene or graphene-based composites with well-defined metal organic framework (MOF) layers is a great challenge. Herein, novel magnetic graphene MOF composites were constructed via a simple strategy for self-assembly of well-distributed, dense, and highly porous MOFs on both sides of graphene nanosheets. Graphene functionalized with magnetic nanoparticles and carboxylic groups on both sides was explored as the backbone and template to direct the controllable self-assembly of MOFs. The prepared composite materials have a relatively high specific surface area (345.4 m2 g-1), and their average pore size is measured to be 3.2 nm. Their relatively high saturation magnetization (23.8 emu g-1) indicates their strong magnetism at room temperature. Moreover, the multifunctional composite was demonstrated to be a highly effective affinity material in selective extraction and separation of low-concentration biomolecules from biological samples, in virtue of the size-selection property of the unique porous structure and the excellent affinity of the composite materials. Besides providing a solution for the construction of well-defined functional graphene-based MOFs, this work could also contribute to selective extraction of biomolecules, in virtue of the universal affinity between immobilized metal ions and biomolecules.
AB - Successful control of homogeneous and complete coating of graphene or graphene-based composites with well-defined metal organic framework (MOF) layers is a great challenge. Herein, novel magnetic graphene MOF composites were constructed via a simple strategy for self-assembly of well-distributed, dense, and highly porous MOFs on both sides of graphene nanosheets. Graphene functionalized with magnetic nanoparticles and carboxylic groups on both sides was explored as the backbone and template to direct the controllable self-assembly of MOFs. The prepared composite materials have a relatively high specific surface area (345.4 m2 g-1), and their average pore size is measured to be 3.2 nm. Their relatively high saturation magnetization (23.8 emu g-1) indicates their strong magnetism at room temperature. Moreover, the multifunctional composite was demonstrated to be a highly effective affinity material in selective extraction and separation of low-concentration biomolecules from biological samples, in virtue of the size-selection property of the unique porous structure and the excellent affinity of the composite materials. Besides providing a solution for the construction of well-defined functional graphene-based MOFs, this work could also contribute to selective extraction of biomolecules, in virtue of the universal affinity between immobilized metal ions and biomolecules.
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U2 - 10.1021/acsami.6b02209
DO - 10.1021/acsami.6b02209
M3 - Article
C2 - 27046460
AN - SCOPUS:84966322370
SN - 1944-8244
VL - 8
SP - 10234
EP - 10242
JO - ACS Applied Materials and Interfaces
JF - ACS Applied Materials and Interfaces
IS - 16
ER -