Imine‐Linked Covalent Organic Framework on Surface for Biosensor

Wang, Peiyuan; Kang, Mengmeng; Sun, Shumin; Liu, Qiang; Zhang, Zhihong; Fang, Shaoming

doi:10.1002/cjoc.201400260

Cited by 61 publications

(40 citation statements)

References 27 publications

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“…Choice of nanomaterials, biosystems, and the corresponding nanobiohybrid construction routes. References (119)(120)(121)(122)(123)(124)(125)(126)(127)…”

Section: Supplementary Materialsmentioning

confidence: 99%

Nanobiohybrids: Materials approaches for bioaugmentation

et al. 2020

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Nanobiohybrids, synthesized by integrating functional nanomaterials with living systems, have emerged as an exciting branch of research at the interface of materials engineering and biological science. Nanobiohybrids use synthetic nanomaterials to impart organisms with emergent properties outside their scope of evolution. Consequently, they endow new or augmented properties that are either innate or exogenous, such as enhanced tolerance against stress, programmed metabolism and proliferation, artificial photosynthesis, or conductivity. Advances in new materials design and processing technologies made it possible to tailor the physicochemical properties of the nanomaterials coupled with the biological systems. To date, many different types of nanomaterials have been integrated with various biological systems from simple biomolecules to complex multicellular organisms. Here, we provide a critical overview of recent developments of nanobiohybrids that enable new or augmented biological functions that show promise in high-tech applications across many disciplines, including energy harvesting, biocatalysis, biosensing, medicine, and robotics.

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“…Choice of nanomaterials, biosystems, and the corresponding nanobiohybrid construction routes. References (119)(120)(121)(122)(123)(124)(125)(126)(127)…”

Section: Supplementary Materialsmentioning

confidence: 99%

Nanobiohybrids: Materials approaches for bioaugmentation

et al. 2020

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“…The structural characterisation of low-crystalline, disordered or aperiodic solids remains one of the biggest challenges faced by the chemistry community, 1 but it is vitally important for harnessing the properties of many enigmatic disordered molecular materials. 2 New types of porous materials, such as covalent organic frameworks (COFs) 3 and conjugated microporous polymers (CMPs) 4 attract much interest as synthetic organic 2D materials, that offer many functional properties that could be exploited for uses in gas storage, 5 sensing, 6,7 drug delivery 8,9 or catalysis, 10,11 in addition to a microporous structure allowing for the tuning of their electronic bandgap. 12,13 However, the complex and often disordered 3D structures of CMPs and COFs to some extent present a significant hurdle for establishing structure-property relations and thus hinder the development of practical applications for these innovative materials.…”

Section: Introductionmentioning

confidence: 99%

Three dimensional nanoscale analysis reveals aperiodic mesopores in a covalent organic framework and conjugated microporous polymer

et al. 2019

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“…[2] Alternative synthetic methods, such as microwave synthesis, [22] grinding methods [23,24] and on-surface synthesis [25][26][27] have already been discussed. [2] Alternative synthetic methods, such as microwave synthesis, [22] grinding methods [23,24] and on-surface synthesis [25][26][27] have already been discussed.…”

Section: Introductionmentioning

confidence: 99%

Undulated 2D Covalent Organic Frameworks Based on Bowl‐Shaped Cyclotricatechylene

et al. 2016

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Two 2D wavy hexagonal hexahydroxyl cyclotricatechylene (CTC) based COFs, CTC-COF-2 and CTC-COF-3 were synthesized through solvothermal reaction. The bowl-shaped conformation caused CTC skeletons packed in a columnar manner with the same oriented units, thus forming an undulated structure. The gas adsorption properties of CTC-COFs were investigated, which show the potential application abilities in hydrogen storage of CTC-COFs. The introduction of pyrene into CTC-COF-3 makes it a potential semiconducting π-conjugated material.

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Imine‐Linked Covalent Organic Framework on Surface for Biosensor

Cited by 61 publications

References 27 publications

Nanobiohybrids: Materials approaches for bioaugmentation

Nanobiohybrids: Materials approaches for bioaugmentation

Three dimensional nanoscale analysis reveals aperiodic mesopores in a covalent organic framework and conjugated microporous polymer

Undulated 2D Covalent Organic Frameworks Based on Bowl‐Shaped Cyclotricatechylene

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