Xintong Zheng scite author profile

Cellulose nanocrystals (CNCs) are powerful photonic building blocks for the fabrication of biosourced colored films. A combination of the advantages of self-assembled CNCs and multiple templating agents offers access to the development of novel physicochemical sensors, structural coatings, and optic devices. However, due to the inherent brittleness and water instability of CNCderived materials, their further applications are widely questionable and restrictive. Here, a soft polymer of poly(vinyl alcohol) (PVA) was introduced into the rigid CNC system to balance molecular interactions, whereafter two hard/soft nanocomposites were fastened through a cross-linking reaction of glutaraldehyde (GA), resulting in a highly flexible, water-stable, and chiral nematic CNC composite film through an evaporation-induced self-assembly technique. For a 1.5 wt % GA-cross-linked 70 wt % CNC loading film, its treatment with harsh hydrophilic exposure (soaking in a strong acid, strong base, and seawater) and various organic solvents show exceptional solvent-resistant abilities. Furthermore, the film can even withstand a weight of 167 g cm −2 without failure, which is a highly stiff and durable character. Importantly, the film remains a highly ordered chiral nematic organization, being able to act as a highly transparent substrate for selective reflection of left-handed circularly polarized light, preparing fully covered and patterned full-color coatings on various substrates. Our work paves the way for applications in low-cost, durable, and photonic cellulosic coatings.

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What Is Hidden Behind Schiff Base Hydrolysis? Dynamic Covalent Chemistry for the Precise Capture of Sialylated Glycans

Xiong

et al. 2020

J. Am. Chem. Soc.

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The aberrant expression of sialylated glycans (SGs) is closely associated with the occurrence, progression, and metastasis of various cancers, and sialylated glycoproteins have been widely used as clinical biomarkers for cancers. However, the identification and comprehensive analysis of SGs are exceptionally complex, which urgently need an innovative and effective method of capturing SGs from biosamples prior to MS analysis. Here, we report that a novel dynamic covalent chemistry strategy based on Schiff base hydrolysis can be applied to the precise capture of SGs. The prepared glucopyranoside−Schiff base-modified silica gel displays extraordinary enrichment selectivity (even at a ratio of 1:5000 with interference), high adsorption capacity (120 mg•g −1 ), and satisfying enrichment recovery (95.5%) toward sialylated glycopeptides, contributing to a highly specific, efficient, mild, and reversible SG capturing approach that can remarkably promote the development of glycoproteomics and sialic acid sensing devices and can be considerably promising in cancer biomarker discovery. Meanwhile, the facile hydrolysis characteristic of our Schiff base material completely subverts conventional knowledge of enrichment materials, the chemical stability of which is usually regarded as a prerequisite. Importantly, we find an exciting story hidden behind the Schiff base hydrolysis reaction, which demonstrates the unique advantage of dynamic covalent chemistry in glycoproteomics and biomolecule sensing.

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Synthesis of optically active chiral mesoporous molybdenum carbide film

Zhang

Zheng

Wang

et al. 2021

Journal of Industrial and Engineering Chemistry

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Xintong Zheng

Highly Strong and Solvent-Resistant Cellulose Nanocrystal Photonic Films for Optical Coatings

What Is Hidden Behind Schiff Base Hydrolysis? Dynamic Covalent Chemistry for the Precise Capture of Sialylated Glycans

Synthesis of optically active chiral mesoporous molybdenum carbide film

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