Kai Jin scite author profile

Biopolymer nanofibrils exhibit exceptional mechanical properties with a unique combination of strength and toughness, while also presenting biological functions that interact with the surrounding environment. These features of biopolymer nanofibrils profit from their hierarchical structures that spun angstrom to hundreds of nanometer scales. To maintain these unique structural features and to directly utilize these natural supramolecular assemblies, a variety of new methods have been developed to produce biopolymer nanofibrils. In particular, cellulose nanofibrils (CNFs), chitin nanofibrils (ChNFs), silk nanofibrils (SNFs) and collagen nanofibrils (CoNFs), as the four most abundant biopolymer nanofibrils on earth, have been the focus of research in recent years due to their renewable features, wide availability, low-cost, biocompatibility, and biodegradability. A series of top-down and bottom-up strategies have been accessed to exfoliate and regenerate these nanofibrils for versatile advanced applications. In this review, we first summarize the structures of biopolymer nanofibrils in nature and outline their related computational models with the aim of disclosing fundamental structure-property relationships in biological materials. Then, we discuss the underlying methods used for the preparation of CNFs, ChNFs, SNF and CoNFs, and discuss emerging applications for these biopolymer nanofibrils.

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Liquid Exfoliated Natural Silk Nanofibrils: Applications in Optical and Electrical Devices

Ling

et al. 2016

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Ultrathin Free-Standing Bombyx mori Silk Nanofibril Membranes

et al. 2016

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We report a new ultrathin filtration membrane prepared from silk nanofibrils (SNFs), directly exfoliated from natural Bombyx mori silk fibers to retain structure and physical properties. These membranes can be prepared with a thickness down to 40 nm with a narrow distribution of pore sizes ranging from 8 to 12 nm. Typically, 40 nm thick membranes prepared from SNFs have pure water fluxes of 13 000 L h(-1) m(-2) bar(-1), more than 1000 times higher than most commercial ultrathin filtration membranes and comparable with the highest water flux reported previously. The commercial membranes are commonly prepared from polysulfone, poly(ether sulfone), and polyamide. The SNF-based ultrathin membranes exhibit efficient separation for dyes, proteins, and colloids of nanoparticles with at least a 64% rejection of Rhodamine B. This broad-spectrum filtration membrane would have potential utility in applications such as wastewater treatment, nanotechnology, food industry, and life sciences in part due to the protein-based membrane polymer (silk), combined with the robust mechanical and separation performance features.

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Visually Interpretable Representation Learning for Depression Recognition from Facial Images

Zhou

Jin

Shang

et al. 2020

IEEE Trans. Affective Comput.

181

117

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Wind farm layout optimization using genetic algorithm with different hub height wind turbines

Chen

Jin

et al. 2013

Energy Conversion and Management

252

101

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Kai Jin

Biopolymer nanofibrils: Structure, modeling, preparation, and applications

Liquid Exfoliated Natural Silk Nanofibrils: Applications in Optical and Electrical Devices

Ultrathin Free-Standing Bombyx mori Silk Nanofibril Membranes

Visually Interpretable Representation Learning for Depression Recognition from Facial Images

Wind farm layout optimization using genetic algorithm with different hub height wind turbines

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