資源・素材2024(秋田)

講演情報(2024年8月7日付 確定版)

若手・一般ポスター発表

15:15-17:15 ポスター発表(高温素材プロセッシング) [9/11(水) PM ポスター発表会場]

2024年9月11日(水) 15:15 〜 17:15 ポスター会場 5(大学会館 1F クレール)

15:15 〜 17:15

[P086B] 資源利活用を指向したシルクフィブロイン成形体の機能改変

○秋岡 翔太1、松本 祐里1、桑原 桃花1、中澤 靖元1 (1. 東京農工大学)

キーワード:シルクフィブロイン、生分解性材料、結晶構造、タンパク質、複合材料

Silk fiber produced by domesticated silkworms is a natural fiber produced at a rate of several hundred thousand tons per year for material products. Most waste, such as used products, short threads, and half-finished products generated during the production process, is landfilled or incinerated because there is no effective way to recycle it. Silk fibroin (SF) protein, the main component of silk fiber, exhibits biocompatibility and biodegradability and is being studied for application in tissue engineering materials and environmentally friendly materials. However, SF is a highly rigid polymer due to the abundance of (GAGAGS) repetitive sequences consisting of the amino acids glycine (G), alanine (A), and serine (S), which limits its applications. The (GAGAGS) regions form a crystal structure through hydrogen bonding and hydrophobic interactions, leading to high stiffness. If this crystal structure can be controlled, material functions such as mechanical properties and biodegradability can be modified, and applications can be expanded. In this presentation, we will report the results of our attempts to modify the material functions by two methods: modifying the crystal regions with molecular chains and compositing them with biodegradable materials.

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