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生物酶基因改造促进环境友好型降解塑料循环利用的科学发展

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生物酶基因改造促进环境友好型降解塑料循环利用的发展.本文深入研究了塑料降解生物酶的筛选和选择的科学发展;研究了塑料降解生物酶的基因改造技术的科学发展;研究了塑料降解酶合成生物学技术科学发展研究;分析了AI塑料降解生物酶技术的科学发展;分析了塑料降解生物酶在环境友好型降解塑料中应用的科学发展;阐述了新型塑料降解生物酶的开发与应用前景;论述了塑料降解生物酶基因改造促进环境友好型降解塑料循环利用发展趋势和研究方向.本文指出塑料降解生物酶的发展,不仅提升了酶在实际应用中的降解效率,而且推动了环境友好型降解塑料循环利用.
Biological enzyme genetic modification promotes the scientific development of environmentally friendly degradation plastic recycling
Genetic modification of biological enzymes promotes the recycling of environmentally friendly degradable plastics.This article delves into the scientific development of screening and selection of plastic degrading enzymes;The scientific development of genetic modification technology for plastic degrading enzymes has been studied;Research on the scientific development of synthetic biology technology for plastic degrading enzymes;Analyzed the scientific development of AI plastic degradation enzyme technology;Analyzed the scientific development of the application of plastic degrading enzymes in environmentally friendly degradation of plastics;Elaborated on the development and application prospects of new plastic degrading biological enzymes;This paper discusses the development trend and research direction of promoting environmentally friendly degradation of plastic recycling through genetic modification of plastic degrading enzymes.This article points out that the development of plastic degrading enzymes not only improves the degradation efficiency of enzymes in practical applications,but also promotes the environmentally friendly recycling of degradable plastics.

plastic degradationbiological enzymesartificial intelligencegenetic modificationscientific development

张友根

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上海第一塑料机械厂,上海 201201

塑料降解 生物酶 人工智能 基因改造 科学发展

2025

橡塑技术与装备
全国橡胶塑料设计技术中心 昊华工程有限公司 北京橡胶工业研究设计院

橡塑技术与装备

影响因子:0.109
ISSN:1009-797X
年,卷(期):2025.51(1)