Supramolecular Hydrogels Based on DNA Self-Assembly

Shao, Yu; Jia, Haoyang; Cao, Tianyang

doi:10.1021/acs.accounts.6b00524

Cited by 312 publications

(281 citation statements)

References 58 publications

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“…Hydrogels are 3D cross‐linked networks with extremely high water content, and have been regarded as excellent candidates for environmentally sustainable materials . Hydrogels can be formed via various cross‐linking actions of polymer chains, such as thermo‐condensation, self‐assembly, electrostatic interaction, ionic gelation, and chemical cross‐linking routes . And therefore varied properties may be achieved using different polymers to form hydrogels, as well as cross‐linking actions.…”

Section: Introductionmentioning

confidence: 99%

Photo‐Induced Hydrogel Formation Based on g‐C₃N₄ Nanosheets with Self‐Cross‐Linked 3D Framework for UV Protection Application

Yao

Yan

et al. 2018

Macro Materials & Eng

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Composite hydrogels of graphitic carbon nitride nanosheets (CNNS) and polyacrylamide (PAM) with superior UV absorption and visible transparence capabilities are reported. CNNS is employed not only as a photocatalytic initiator to trigger the polymerization of acrylamide, but also as a cross‐linker to 3D connected PAM chains via hydrogen bonds. The obtained CNNS/PAM hydrogels are highly moldable for preparing various forms, and have good mechanical properties, self‐healing ability, and photo‐stability. Furthermore, the composite hydrogels have a wide spectral range for UV absorption compared to conventional UV protective materials. Besides the complete screening of UVB (280–315 nm) in sun radiation, the CNNS/PAM hydrogel film can also filter >95% UVA radiation (315–400 nm) by regulating the coating thickness, meanwhile retaining a high visible transmittance. Therefore, the CNNS/PAM hydrogels have potential applications for shielding UV radiation. Additionally, this strategy provides a common and facile route to fabricate functional composite hydrogels via photo‐induced polymerization.

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Section: Introductionmentioning

confidence: 99%

Photo‐Induced Hydrogel Formation Based on g‐C₃N₄ Nanosheets with Self‐Cross‐Linked 3D Framework for UV Protection Application

Yao

Yan

et al. 2018

Macro Materials & Eng

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“…Formation of higher‐order structures through non‐covalent interactions, reversible sol–gel transitions, chemical and structural versatility, and multistimuli responsiveness make supramolecular hydrogels ideal candidates for various biomedical applications like scaffolds for cell/tissue engineering, sensors, bioimaging, and carriers for biomolecules. Multiple reviews discuss various approaches in developing supramolecular hydrogels for these applications …”

Section: Introductionmentioning

confidence: 99%

Stimuli‐Responsive Supramolecular Hydrogels and Their Applications in Regenerative Medicine

Hoque

Sangaj

Varghese

2018

Macromolecular Bioscience

148

108

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Supramolecular hydrogels are a class of self-assembled network structures formed via non-covalent interactions of the hydrogelators. These hydrogels capable of responding to external stimuli are considered to be smart materials due to their ability to undergo sol–gel and/or gel–sol transition upon subtle changes in their surroundings. Such stimuli-responsive hydrogels are intriguing biomaterials with applications in tissue engineering, delivery of cells and drugs, modulating tissue environment to promote innate tissue repair, and imaging for medical diagnostics among others. This review summarizes the recent developments in stimuli-responsive supramolecular hydrogels and their potential applications in regenerative medicine. Specifically, various structural aspects of supramolecular hydrogelators involved in self-assembly, the role of external stimuli in tuning/controlling their phase transitions, and how these functions could be harnessed to advance applications in regenerative medicine are focused on. Finally, the key challenges and future prospects for these versatile materials are briefly described.

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“…Liu. et al had developed several methods to produce self‐healing DNA hydrogels . The widespread use of DNA hydrogels is limited as a result of their poor mechanical and thermal properties, as well as complicated preparation.…”

Section: Introductionmentioning

confidence: 99%

Self‐Healing Properties of PDMS Elastomers via Guanine and Cytosine Base Pairs

Chen

Peng

Wei

et al. 2019

Macro Chemistry & Physics

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On account of the combination of base pairs interaction, DNA can realize, unlock, and repair. By introducing commercially available guanine and cytosine into poly(dimethyl siloxane) (PDMS), the self‐healing supramolecular polymer can be achieved, which will be of great interest. Herein, a kind of base pairs functionalized PDMS‐based elastomer is successfully developed and demonstrates great elasticity, tensile strength, and self‐healing abilities, such as GC‐PDMS‐10k, which can be stretched more than triple the original length and achieve 75% self‐healing efficiency. Changing the molecular weights of PDMS or the base pairs offers the desired mechanical properties. Importantly, the synthesis approach is simple enough with no external solvent.

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Supramolecular Hydrogels Based on DNA Self-Assembly

Cited by 312 publications

References 58 publications

Photo‐Induced Hydrogel Formation Based on g‐C₃N₄ Nanosheets with Self‐Cross‐Linked 3D Framework for UV Protection Application

Photo‐Induced Hydrogel Formation Based on g‐C₃N₄ Nanosheets with Self‐Cross‐Linked 3D Framework for UV Protection Application

Stimuli‐Responsive Supramolecular Hydrogels and Their Applications in Regenerative Medicine

Self‐Healing Properties of PDMS Elastomers via Guanine and Cytosine Base Pairs

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Supramolecular Hydrogels Based on DNA Self-Assembly

Cited by 312 publications

References 58 publications

Photo‐Induced Hydrogel Formation Based on g‐C3N4 Nanosheets with Self‐Cross‐Linked 3D Framework for UV Protection Application

Photo‐Induced Hydrogel Formation Based on g‐C3N4 Nanosheets with Self‐Cross‐Linked 3D Framework for UV Protection Application

Stimuli‐Responsive Supramolecular Hydrogels and Their Applications in Regenerative Medicine

Self‐Healing Properties of PDMS Elastomers via Guanine and Cytosine Base Pairs

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Photo‐Induced Hydrogel Formation Based on g‐C₃N₄ Nanosheets with Self‐Cross‐Linked 3D Framework for UV Protection Application

Photo‐Induced Hydrogel Formation Based on g‐C₃N₄ Nanosheets with Self‐Cross‐Linked 3D Framework for UV Protection Application