Structure Characterization and Biodegradation Rate of Poly(ε-caprolactone)/Starch Blends

Nevoralová, Martina; Koutný, Marek; Ujčić, Aleksandra; Starý, Zdeněk; Šerá, Jana; Vlkova, Helena; Šlouf, Miroslav; Fortelný, Ivan; Kruliš, Zdeněk

doi:10.3389/fmats.2020.00141

Cited by 56 publications

(35 citation statements)

References 55 publications

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“…PCL also has relatively long biodegradable time. According to the literature, PCL can biodegrade in a few months to many years, depending on its molecular weight, degree of crystallinity, shape, porosity, sample thickness, and the surrounding environment [ 16 ], unlike traditional plastics, such as polypropylene (PP) and polyethylene (PE), which take hundreds or even thousands of years to fully decay.…”

Section: Introductionmentioning

confidence: 99%

Natural Fiber-Reinforced Polycaprolactone Green and Hybrid Biocomposites for Various Advanced Applications

et al. 2022

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Recent developments within the topic of biomaterials has taken hold of researchers due to the mounting concern of current environmental pollution as well as scarcity resources. Amongst all compatible biomaterials, polycaprolactone (PCL) is deemed to be a great potential biomaterial, especially to the tissue engineering sector, due to its advantages, including its biocompatibility and low bioactivity exhibition. The commercialization of PCL is deemed as infant technology despite of all its advantages. This contributed to the disadvantages of PCL, including expensive, toxic, and complex. Therefore, the shift towards the utilization of PCL as an alternative biomaterial in the development of biocomposites has been exponentially increased in recent years. PCL-based biocomposites are unique and versatile technology equipped with several importance features. In addition, the understanding on the properties of PCL and its blend is vital as it is influenced by the application of biocomposites. The superior characteristics of PCL-based green and hybrid biocomposites has expanded their applications, such as in the biomedical field, as well as in tissue engineering and medical implants. Thus, this review is aimed to critically discuss the characteristics of PCL-based biocomposites, which cover each mechanical and thermal properties and their importance towards several applications. The emergence of nanomaterials as reinforcement agent in PCL-based biocomposites was also a tackled issue within this review. On the whole, recent developments of PCL as a potential biomaterial in recent applications is reviewed.

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Section: Introductionmentioning

confidence: 99%

Natural Fiber-Reinforced Polycaprolactone Green and Hybrid Biocomposites for Various Advanced Applications

et al. 2022

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“…The polymer’s relatively low strength narrows the field of application in biomedical or tissue applications, the food-packaging industry and agriculture due to great resistance to water and oil, non-toxicity and biodegradability. Many attempts have been made to combine PCL with other polymers to modify its properties and degradation in the environment [ 103 ].…”

Section: Biodegradable Nonwoven Agrotextile and Films From Cellulose ...mentioning

confidence: 99%

Biodegradable Nonwoven Agrotextile and Films—A Review

et al. 2022

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As society becomes more aware of environmental pollution, global warming, and environmental disasters, people are increasingly turning to sustainable materials and products. This includes agrotextiles in a wide range of products, including nonwoven agrotextiles for mulching. This review provides insight into relevant available data and information on the condition, possibilities, and trends of nonwoven mulches from natural fibres, biopolymers, and recycled sources. The basic definitions and differences between biodegradation and composting processes are explained, and the current standards related to biodegradation are presented. In addition, an insight into the biodegradation of various nonwoven mulches and films, including their advantages and disadvantages, is provided, to predict the future directions of nonwoven mulches development.

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“…52208.19055 Поликапролактон (ПКЛ) -биоразлагаемый полиэфир, синтезируемый из ε-капролактона, -благодаря своим физическим свойствам и коммерческой доступности является весьма подходящим полимером для упаковочной промышленности, сельского хозяйства и других приложений [1]. Для улучшения эксплуатационных характеристик и уменьшения сроков биодеструкции ПКЛ часто исследуют в композиции с полимерами: поли-3-гидроксибутиратом [2], полилактидом [3], крахмалом [4] и неорганическими наполнителями [5,6]. Одним из наиболее часто применяемых видов наполнителей для ПКЛ является монтмориллонит.…”

Section: представлены результаты исследования влияния наполнителя "unclassified

Исследование Влияния Модифицированного Монтмориллонита, Используемого В Качестве Наполнителя, На Свойства Композитных Гранул Из Поликапролактона

Ертилецкая¹,

Суханова²,

Бояндин³

et al. 2022

Письма В Журнал Технической Физики

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Structure Characterization and Biodegradation Rate of Poly(ε-caprolactone)/Starch Blends

Cited by 56 publications

References 55 publications

Natural Fiber-Reinforced Polycaprolactone Green and Hybrid Biocomposites for Various Advanced Applications

Natural Fiber-Reinforced Polycaprolactone Green and Hybrid Biocomposites for Various Advanced Applications

Biodegradable Nonwoven Agrotextile and Films—A Review

Исследование Влияния Модифицированного Монтмориллонита, Используемого В Качестве Наполнителя, На Свойства Композитных Гранул Из Поликапролактона

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