水热变性前后铝、硅、磷鞣剂鞣制兽皮粉的固体核磁共振分析

IF 0.6 4区工程技术 Q4 CHEMISTRY, APPLIED

Journal of The American Leather Chemists Association Pub Date : 2021-10-01 DOI:10.34314/jalca.v116i10.4615

J. Liu, D. He, Cheng Hualin, K. Ding

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引用次数: 0

摘要

为了直接研究鞣制剂与胶原蛋白分子之间化学键的变化，制备了铝、硅、磷鞣制剂鞣制的兽皮粉。采用固态27Al核磁共振、29Si核磁共振和31P核磁共振分析了鞣皮粉中Al、Si和P的化学位移。结果表明，经水热变性后，与胶原分子通过配位键相互作用的铝鞣皮粉中Al的化学位移基本不变(仅向高场区轻微移动)。水热变性后，与胶原蛋白分子通过氢键相互作用的硅鞣皮粉中Si的化学位移没有发生变化。磷鞣皮粉中P与胶原分子通过共价键相互作用，经水热变性后，P的化学位移明显向高场区偏移。

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Solid State NMR Analysis for Hide Powder Tanned by Aluminum, Silicon and Phosphorus Tanning Agents before and after Hydrothermal Denaturation

In order to investigate the change of chemical bonds between tanning agents and collagen molecules directly, hide powder tanned by aluminum, silicon and phosphorus tanning agents were prepared. The chemical shifts of Al, Si and P in tanned hide powder were analyzed by solid-state 27Al NMR, 29Si NMR and 31P NMR. The results showed that, the chemical shift of Al in aluminum tanned hide powder which interacted with collagen molecules through coordination bond could be regarded as unchanging after hydrothermal denaturation (only slightly moved to high field area). The chemical shift of Si in silicon tanned hide powder which interacted with collagen molecules through hydrogen bond did not change after hydrothermal denaturation. The chemical shift of P in phosphorus tanned hide powder, which interacted with collagen molecules through covalent bond, was obviously shifted to the high field area after hydrothermal denaturation.

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来源期刊

Journal of The American Leather Chemists Association 工程技术-材料科学：纺织

CiteScore

1.30

自引率

33.30%

发文量

审稿时长

3 months

期刊介绍： The Journal of the American Leather Chemists Association publishes manuscripts on all aspects of leather science, engineering, technology, and economics, and will consider related subjects that address concerns of the industry. Examples: hide/skin quality or utilization, leather production methods/equipment, tanning materials/leather chemicals, new and improved leathers, collagen studies, leather by-products, impacts of changes in leather products industries, process efficiency, sustainability, regulatory, safety, environmental, tannery waste management and industry economics.