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研究领域工程学化学工程能源和燃烧中的化学和热过程
通过酶处理从生物降解膜中控制释放D-Limonene

通过酶处理从生物降解膜中控制释放D-Limonene

Viktor Nakonechnyi ¹, Viktoriia Havryliak ¹, Vira Lubenets ¹

Viktor Nakonechnyi ¹, Viktoriia Havryliak ¹, Vira Lubenets ¹

¹Department of Technology of Biological Active Substances, Pharmacy and Biotechnology, Lviv Polytechnic National University, Bandera 12, 79013 Lviv, Ukraine.

⁰Department of Technology of Biological Active Substances, Pharmacy and Biotechnology, Lviv Polytechnic National University, Bandera 12, 79013 Lviv, Ukraine.

Polymers +

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2025年八月28日

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在PubMed上查看摘要

概括

此摘要是机器生成的。

我们开发了可调节的可生物降解的凝膜, 酶降解和糖醇含量精确控制的VOC释放,为香味传递系统提供了一种新的解决方案.

科学领域

材料科学
生物技术
化学工程

背景情况

挥发性有机化合物 (VOC) 的不稳定性限制了它们在香料载体中的应用.
现有的固定剂,如环氧素,提供快速释放,而和嗅的应用则将VOCs结合得太强.
可生物降解的凝膜提供了可调节的可控VOC释放的替代方案.

研究的目的

设计具有可调节挥发性有机化合物 (VOC) 释放特征的可生物降解等膜.
研究糖醇塑化和蛋白酶降解对VOC释放动态的影响.
开发和验证近乎实时的分析工具包,用于描述这些薄膜中的VOC释放.

主要方法

可生物降解的凝膜的配方,含有不同的甘油 (5%, 20%) 和蛋白酶-C处理.
通过金属氧化物半导体 (MOS) 电子鼻子,重力测量分析和近红外 (NIR) 光谱仪对九天的VOC释放情况进行监测.
用凝电泳,FTIR光谱,硬度测试和感觉评估对释放数据进行交叉验证.

主要成果

酶治疗在最初几天加速了VOC的释放,显著影响了整体释放特征.
在低糖含量和高糖含量膜之间观察到明显的VOC释放差异.
主要成分分析 (PCA) 的NIR光谱有效地分离了基于糖含量的薄膜配方,与MOS和FTIR数据相关联.

结论

可生物降解的凝薄膜提供可控制的VOC输送平台,可通过糖醇含量和酶降解进行调节.
开发的近实时分析工具包提供了可靠的交叉验证数据来描述VOC释放,从而实现了模型.
这种方法有助于开发先进的生物载体,用于香料和其他挥发性化合物.

关键词:

酸 MOS 传感器飞行有机物航空公司控制的释放数字双胞胎制剂蛋白质酶

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