ZnCl2／凹凸棒石催化合成生物增塑剂C22-三酸酯研究 被引量：1

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作者 刘高伟 吕宗莹 +3 位作者 曾桂凤 周永生 王建浩 王车礼 《中国粮油学报》 EI CAS CSCD 北大核心 2017年第1期91-98,共8页

以地沟油制废弃油脂脂肪酸甲酯(WOFAME)与马来酸二丁酯(DBM)为原料,在自制ZnCl_2/凹凸棒石催化剂作用下合成结构不同的生物增塑剂C22-三酸酯。采用IR、MS、1H-NMR和HPLC等手段对合成产物进行定性、定量分析,根据产物的组成结构对可能的... 以地沟油制废弃油脂脂肪酸甲酯(WOFAME)与马来酸二丁酯(DBM)为原料,在自制ZnCl_2/凹凸棒石催化剂作用下合成结构不同的生物增塑剂C22-三酸酯。采用IR、MS、1H-NMR和HPLC等手段对合成产物进行定性、定量分析,根据产物的组成结构对可能的合成路径进行探讨;试验优化了产物合成工艺条件,研究了产物的耐热及增塑性能。结果表明,在ZnCl_2/凹凸棒石作用下WOFAME中亚油酸甲酯与DBM可分别经Diels-Alder环加成及双烯加成反应合成"环己烯式"与"悬挂式"的C22-三酸酯;合成产物的适宜工艺条件为:反应温度240℃,反应时间4 h,n(DBM)∶n(亚油酸甲酯)=1.1∶1,催化剂用量为WOFAME用量的10%;此条件下,亚油酸甲酯转化率及产物选择性分别可达97%、94%以上。与碘催化反应相比,三分子加成副产物显著减少。此外,合成的C22-三酸酯的耐热性能及增塑性能均优于碘催化合成的产物,且明显优于邻苯类增塑剂DOP。 展开更多

关键词 ZnCl2/凹凸棒石 Diels—Alder环加成 双烯加成 生物增塑剂 C22-三酸酯

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生物塑料在食品药品包装中的应用与展望 被引量：13

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作者 袁春平 侯惠民 《中国医药工业杂志》 CAS CSCD 北大核心 2020年第11期1356-1363,共8页

推广使用生物塑料是解决塑料导致环境污染的必由之路。生物塑料是生物基塑料和生物降解塑料的统称。采用^(14)C测定生物基塑料中生物碳的含量和(或)在堆肥化条件下测定生物降解塑料可分解成二氧化碳和水的程度,可评价生物塑料的环保价... 推广使用生物塑料是解决塑料导致环境污染的必由之路。生物塑料是生物基塑料和生物降解塑料的统称。采用^(14)C测定生物基塑料中生物碳的含量和(或)在堆肥化条件下测定生物降解塑料可分解成二氧化碳和水的程度,可评价生物塑料的环保价值。本文主要介绍了几种常用商品化的可降解生物塑料如淀粉基生物塑料、聚乳酸、聚羟基脂肪酸酯类、聚丁二酸丁二醇酯、乙酸纤维素的结构和特性,以及其在食品药品包装和药物载体方面的应用,并展望了生物塑料未来在药品包装方面的应用前景。 展开更多

关键词 生物塑料 食品药品包装 应用

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Starch Based Bio-Plastics: The Future of Sustainable Packaging 被引量：5

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作者 Ravindra V. Gadhave Abhijit Das +1 位作者 Prakash A. Mahanwar Pradeep T. Gadekar 《Open Journal of Polymer Chemistry》 2018年第2期21-33,共13页

Petroleum derived plastics dominate the food packaging industry even today. These materials have brought a lot of convenience and attraction to agro, food and packaging industry. These materials also have brought alon... Petroleum derived plastics dominate the food packaging industry even today. These materials have brought a lot of convenience and attraction to agro, food and packaging industry. These materials also have brought along with them problems relating to the safe-disposal and renewability of these materials. Due to the growing concern over environmental problems of these materials, interest has shifted towards the development and promoting the use of “bio-plastics”. Bio-plastic is a term used for sustainable packaging materials derived from renewable resources i.e. produced from agro/food sources, materials such as starch, cellulose, etc. and which are considered safe to be used in food applications. To enhance the mechanical properties, and water barrier properties, it can be blended easily with other polymer as well as nano fillers. The current paper is a review of the progress of research in starch based sustainable packaging materials. 展开更多

关键词 bioplastic STARCH PACKAGING SUSTAINABLE

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Bioplastic production in terms of life cycle assessment:A state-of-theart review 被引量：2

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作者 Sameh Samir Ali Esraa A.Abdelkarim +6 位作者 Tamer Elsamahy Rania Al-Tohamy Fanghua Li Michael Kornaros Antonio Zuorro Daochen Zhu Jianzhong Sun 《Environmental Science and Ecotechnology》 SCIE 2023年第3期14-34,共21页

The current transition to sustainability and the circular economy can be viewed as a socio-technical response to environmental impacts and the need to enhance the overall performance of the linear production and consu... The current transition to sustainability and the circular economy can be viewed as a socio-technical response to environmental impacts and the need to enhance the overall performance of the linear production and consumption paradigm.The concept of biowaste refineries as a feasible alternative to petroleum refineries has gained popularity.Biowaste has become an important raw material source for developing bioproducts and biofuels.Therefore,effective environmental biowaste management systems for the production of bioproducts and biofuels are crucial and can be employed as pillars of a circular economy.Bioplastics,typically plastics manufactured from bio-based polymers,stand to contribute to more sustainable commercial plastic life cycles as part of a circular economy in which virgin polymers are made from renewable or recycled raw materials.Various frameworks and strategies are utilized to model and illustrate additional patterns in fossil fuel and bioplastic feedstock prices for various governments'long-term policies.This review paper highlights the harmful impacts of fossil-based plastic on the environment and human health,as well as the mass need for eco-friendly alternatives such as biodegradable bioplastics.Utilizing new types of bioplastics derived from renewable resources(e.g.,biowastes,agricultural wastes,or microalgae)and choosing the appropriate end-of-life option(e.g.,anaerobic digestion)may be the right direction to ensure the sustainability of bioplastic production.Clear regulation and financial incentives are still required to scale from niche polymers to large-scale bioplastic market applications with a truly sustainable impact. 展开更多

关键词 BIOWASTE BIOECONOMY bioplastic Life cycle assessment BIOFUEL

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生物塑料聚(己二酸丁二酸二丁酯-2,5-呋喃二羧酸丁二醇酯)前体的酶催化合成

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作者 龚兰玉 马龙 朱蕾蕾 《微生物学报》 CAS CSCD 北大核心 2024年第8期2813-2822,共10页

【目的】聚(己二酸丁二酸二丁酯-2,5-呋喃二羧酸丁二醇酯)[poly(butylene adipate-co-butylene 2,5-furandicarboxylate),PBAF]是一种可生物降解的呋喃基共聚酯塑料。化学合成PBAF的过程中,寡聚片段聚合的随机性会生成嵌段共聚物、无规... 【目的】聚(己二酸丁二酸二丁酯-2,5-呋喃二羧酸丁二醇酯)[poly(butylene adipate-co-butylene 2,5-furandicarboxylate),PBAF]是一种可生物降解的呋喃基共聚酯塑料。化学合成PBAF的过程中,寡聚片段聚合的随机性会生成嵌段共聚物、无规共聚物、交替共聚物等多种复杂聚合物,从而影响生物塑料PBAF的质量。本研究以单体2,5-呋喃二甲酸二甲酯(dimethyl furan-2,5-dicarboxylate,FDME)和1,4-丁二醇(1,4-butanediol,BDO)为底物,通过酶促反应合成双(4-羟基丁基)呋喃-2,5-二羧酸酯(bis-BDO ester),为生物塑料PBAF提供可以进行可控聚合反应的生物塑料前体,从而减少副产物生成的问题。【方法】在大肠杆菌(Escherichia coli)BL21(DE3)中异源表达来源于嗜橡胶根瘤杆菌(Rhizobacter gummiphilus)的RgPETase,发现RgPETase对底物FDME和BDO具有一定的酰基转移酶活性。深入研究了合成双(4-羟基丁基)呋喃-2,5-二羧酸酯的反应条件的优化,包括反应pH、反应温度、底物兼溶剂BDO的含量和反应酶量。【结果】RgPETase的最适反应pH值为8.0,底物兼溶剂BDO的最适含量为30%,最适反应温度区间为25-30℃。在最适条件下,即反应温度为30℃且酶浓度为6µmol/L时,RgPETase催化10 mmol/L FDME可产生(2.96±0.01)mmol/L双(4-羟基丁基)呋喃-2,5-二羧酸酯。【结论】RgPETase具有较好的酰基转移酶活性,能通过酰基转移反应有效催化FDME生成双(4-羟基丁基)呋喃-2,5-二羧酸酯,为生物塑料PBAF前体的合成提供了一条绿色可持续的途径。 展开更多

关键词 RgPETase 酰基转移反应 生物塑料 PBAF前体

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Biodegradability of bioplastics in different aquatic environments:A systematic review

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作者 Maria Cristina Lavagnolo Valentina Poli +1 位作者 Anna Maria Zampini Valentina Grossule 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2024年第8期169-181,共13页

Bioplastics were first introduced as environmentally friendly materials,with properties similar to those of conventional plastics.A bioplastic is defined as biodegradable if it can be decomposed into carbon dioxide un... Bioplastics were first introduced as environmentally friendly materials,with properties similar to those of conventional plastics.A bioplastic is defined as biodegradable if it can be decomposed into carbon dioxide under aerobic degradation,or methane and CO_(2)under anaerobic conditions,inorganic compounds,and new cellular biomass,by the action of naturally occurring microorganisms.This definition however does not provide any information on the environmental conditions,timescale and extent at which decomposition processes should occur.With regard to the aquatic environment,recognized standards have been established to assess the ability of plastics to undergo biodegradation;however,these standards fail to provide clear targets to be met to allow labelling of a bioplastic as biodegradable.Moreover,these standards grant the user an extensive leeway in the choice of process parameters.For these reasons,the comparison of results deriving from different studies is challenging.The authors analysed and discussed the degree of biodegradability of a series of biodegradable bioplastics in aquatic environments(both fresh and salt water)using the results obtained in the laboratory and from on-site testing in the context of different research studies.Biochemical Oxygen Demand(BOD),CO_(2)evolution,surface erosion and weight loss were the main parameters used by researchers to describe the percentage of biodegradation.The results showed a large variability both in weight loss and BOD,even when evaluating the same type of bioplastics.This confirms the need for a reference range of values to be established with regard to parameters applied in defining the biodegradability of bioplastics. 展开更多

关键词 BIODEGRADATION bioplastic PLASTIC Natural environment Plastic waste

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利用甲烷氧化菌产生聚-β-羟基丁酸酯的研究进展

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作者 宋增武 王贵儒 +3 位作者 孙立瑞 李越 锁博海 辛嘉英 《石油化工》 CAS CSCD 北大核心 2024年第4期585-593,共9页

聚-β-羟基丁酸酯(PHB)是原核微生物产生的一种生物聚酯,主要作为储能物质以颗粒形式在细胞内积累,具有良好的生物相容性、生物降解性、非线性光学活性、成膜性、气体相隔性、抗凝血性等高附加值性能,被认为是化石聚合物的可再生与可生... 聚-β-羟基丁酸酯(PHB)是原核微生物产生的一种生物聚酯,主要作为储能物质以颗粒形式在细胞内积累,具有良好的生物相容性、生物降解性、非线性光学活性、成膜性、气体相隔性、抗凝血性等高附加值性能,被认为是化石聚合物的可再生与可生物降解替代品,对缓解世界化石能源危机与环境污染有积极作用。系统总结了目前可生产PHB的甲烷氧化菌种、PHB在菌体内的合成途径、影响甲烷氧化菌累积PHB的因素,并对存在的问题和未来的发展趋势进行了探讨。 展开更多

关键词 甲烷氧化菌 聚-β-羟基丁酸酯 生物塑料 生物反应器 微生物发酵

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纳米材料增强生物塑料聚羟基脂肪酸酯的研究进展 被引量：5

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作者 周婉茹 马晓军 《林业机械与木工设备》 2017年第2期15-19,共5页

纳米材料改性生物塑料聚羟基脂肪酸酯(PHAs)是解决PHAs在加工时结晶性能、机械性能、阻隔性能和热稳定性能差的有效途径。介绍了纳米材料增强生物塑料聚羟基脂肪酸酯(PHAs)的制备方法,分析了共混法、插层复合法、溶胶-凝胶法和原位复合... 纳米材料改性生物塑料聚羟基脂肪酸酯(PHAs)是解决PHAs在加工时结晶性能、机械性能、阻隔性能和热稳定性能差的有效途径。介绍了纳米材料增强生物塑料聚羟基脂肪酸酯(PHAs)的制备方法,分析了共混法、插层复合法、溶胶-凝胶法和原位复合法四种制备方法的优缺点。综述了纳米纤维素、纳米黏土、碳纳米管和纳米氧化物增强生物塑料PHAs的国内外研究现状,以及纳米材料增强生物塑料PHAs的应用领域,并对生物塑料PHAs的研究和发展进行了展望。 展开更多

关键词 PHAS 纳米材料 生物塑料 研究进展

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绿色生物塑料聚羟基烷酸酯的研究进展 被引量：5

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作者 张晓萍 《塑料科技》 CAS 北大核心 2020年第3期126-128,共3页

由于原油价格上涨和公众对于环境问题的关注等因素,聚羟基烷酸盐的生产成为当前的研究热点。聚合物的通用性使聚羟基烷酸盐成为生物医学、食品、包装、纺织和家用材料等领域良好的候选材料。生产成本较高限制了生物聚合物的广泛应用,今... 由于原油价格上涨和公众对于环境问题的关注等因素,聚羟基烷酸盐的生产成为当前的研究热点。聚合物的通用性使聚羟基烷酸盐成为生物医学、食品、包装、纺织和家用材料等领域良好的候选材料。生产成本较高限制了生物聚合物的广泛应用,今后的发展趋势是开发更高效、更经济的聚羟基烷酸盐生产工艺,分离、纯化和改善其材料性能。 展开更多

关键词 聚羟基烷酸酯 生物塑料 材料

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Bioplastic classifications and innovations in antibacterial,antifungal,and antioxidant applications 被引量：1

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作者 Sariah Abang Farrah Wong +3 位作者 Rosalam Sarbatly Jamilah Sariau Rubiyah Baini Normah Awang Besar 《Journal of Bioresources and Bioproducts》 EI CSCD 2023年第4期361-387,共27页

Conventional plastics exacerbate climate change by generating substantial amounts of greenhouse gases and solid wastes throughout their lifecycle.To address the environmental and economic challenges associated with pe... Conventional plastics exacerbate climate change by generating substantial amounts of greenhouse gases and solid wastes throughout their lifecycle.To address the environmental and economic challenges associated with petroleum-based plastics,bioplastics have emerged as a viable alternative.Bioplastics are a type of plastic that are either biobased,biodegradable,or both.Due to their biodegradability and renewability,bioplastics are established as earth-friendly materials that can replace nonrenewable plastics.However,early bioplastic development has been hindered by higher production costs and inferior mechanical and barrier properties compared to conventional plastics.Nevertheless,studies have shown that the addition of additives and fillers can enhance bioplastic properties.Recent advancements in bioplastics have incorporated special additives like antibacterial,antifungal,and antioxidant agents,offering added values and unique properties for specific applications in various sectors.For instance,integrating antibacterial additives into bioplastics enables the creation of active food packaging,extending the shelf-life of food by inhibiting spoilage-causing bacteria and microorganisms.Moreover,bioplastics with antioxidant additives can be applied in wound dressings,accelerating wound healing by preventing oxidative damage to cells and tissues.These innovative bioplastic developments offer promising opportunities for developing sustainable and practical solutions in various fields.Within this review are two main focuses:an outline of the bioplastic classifications to understand how they fit in as the coveted conventional plastics substitute and an overview of the recent bioplastic innovations in the antibacterial,antifungal,and antioxidant applications.We cover the use of different polymers and additives,presenting the findings and potential applications within the last decade.Although current research primarily focuses on food packaging and biomedicine,the exploration of bioplastics with specialized properties is st 展开更多

关键词 bioplastic BIOPOLYMER BIODEGRADABILITY ANTIBACTERIAL ANTIFUNGAL ANTIOXIDANT

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隐藏嗜酸菌DX1-1产PHB条件的优化 被引量：4

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作者 徐爱玲 历丽 +2 位作者 张帅 杨宇 夏金兰 《武汉大学学报（理学版）》 CAS CSCD 北大核心 2008年第6期707-712,共6页

本试验对可积累聚β-羟基丁酸酯(PHB)的隐藏嗜酸菌(Acidiphilium cryptum)DX1-1菌株的培养条件进行了优化.确定了最佳碳氮源组合(葡萄糖,KNO3),正交试验确定了最优培养条件即碳源浓度为40 g/L、氮源浓度为15 g/L以及初始pH值为3.0,并确... 本试验对可积累聚β-羟基丁酸酯(PHB)的隐藏嗜酸菌(Acidiphilium cryptum)DX1-1菌株的培养条件进行了优化.确定了最佳碳氮源组合(葡萄糖,KNO3),正交试验确定了最优培养条件即碳源浓度为40 g/L、氮源浓度为15 g/L以及初始pH值为3.0,并确定了在最优培养条件下生长曲线和PHB产量随时间的变化曲线.通过核磁共振对该菌胞内PHB的结构进行了分析.此次试验提高了DX1-1菌株PHB的产量,最高达到19.75 g/L. 展开更多

关键词 隐藏嗜酸菌 生物塑料 聚-β-羟基丁酸酯 培养条件

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Impact of Photonic Action on the Hygroscopy of Sweet Potato Starch-Based Bioplastics from Congo

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作者 Aristide H. W. Nakavoua Anicet F. Binaki +2 位作者 Emmanuelle S. Ouenadio Raymond G. Elenga Vincent Verney 《Open Journal of Applied Sciences》 2022年第1期42-50,共9页

The work carried out here opens another perspective in the valorization of sw<span>eet potatoes produced in Congo Brazzaville other than those proposed by <b><i>BOULA</i></b> <b><... The work carried out here opens another perspective in the valorization of sw<span>eet potatoes produced in Congo Brazzaville other than those proposed by <b><i>BOULA</i></b> <b><i>and</i></b><span> <b><i>all</i></b></span>. We have shown in this work that the hydrophilic property of starch which limits the production of starch-based bioplastics can be inhibited by using the effects of photonic incandescence. Indeed, light significantly impacts the bioplastic matrix causing a decrease of the sites likely to bind water molecules. However, it would be desirable to apply rheology for a better follow-up of this cross-linking phenomenon. The synthesized retrograde bioplastic having undergone a photonic stress shows better physical properties to be used as packaging and thus to answer the environmental protection. 展开更多

关键词 AGING bioplastic Ipomea batata Photonic Stress

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植物基完全可降解生物塑料的现状及展望 被引量：3

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作者 卢芸笑 王天顺 +3 位作者 王晨光 王清晨 李松明 张杰 《食品工业》 CAS 北大核心 2020年第3期207-210,共4页

当前环境中的塑料污染问题受到全世界关注。用于包装的塑料材料越来越多,产生大量无法降解的固体废物。生物降解塑料被认为是解决塑料废物问题的可能办法,完全可降解塑料可被微生物完全降解,起到很好的保护环境作用。植物在自然条件下... 当前环境中的塑料污染问题受到全世界关注。用于包装的塑料材料越来越多,产生大量无法降解的固体废物。生物降解塑料被认为是解决塑料废物问题的可能办法,完全可降解塑料可被微生物完全降解,起到很好的保护环境作用。植物在自然条件下可以产生淀粉、纤维素、半纤维素、储藏蛋白等聚合物,是天然的可降解高分子材料来源。以植物为基础,完全可生物降解聚合物具有完全的生物可降解性和可再生性,是替代石油基塑料的可行材料。介绍解决塑料污染问题的可能办法及主要几种植物基完全可生物降解塑料研究现状和发展前景。 展开更多

关键词 植物基 完全生物可降解 生物塑料

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Development and characterization of food packaging bioplastic film from cocoa pod husk cellulose incorporated with sugarcane bagasse fibre 被引量：3

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作者 Siti Nuurul Hud Mohammad Azmin Najah Aliah binti Mohd Hayat Mohd Shukri Mat Nor 《Journal of Bioresources and Bioproducts》 EI 2020年第4期248-255,共8页

Agricultural wastes,including cocoa pod husk(waste from the chocolate industry)and sugarcane bagasse(waste from the sugar industry),are increasing day by day.The development of food packaging biofilms from these two w... Agricultural wastes,including cocoa pod husk(waste from the chocolate industry)and sugarcane bagasse(waste from the sugar industry),are increasing day by day.The development of food packaging biofilms from these two wastes could be beneficial to the environment and human.Therefore,this study was conducted to develop biodegradable plastic films by using cocoa pod husk and sugarcane bagasse.Cellulose and fibre were extracted from cocoa pod husk and sugar-cane bagasse,respectively.The developed bioplastic films were divided into several concentration ratios of cellulose and fibre which are 100꞉0(100%cellulose),75꞉25(cellulose꞉fibre),50꞉50(cel-lulose꞉fibre),25꞉75(cellulose꞉fibre),and 0꞉100(100%fibre).The physicochemical properties for all bioplastic concentration ratios were determined in terms of sensory evaluation,drying time,moisture content,water absorption and water vapor permeability.From the observation and anal-ysis of the physicochemical properties of bioplastic,we found that the most suitable bioplastic film for food packaging goes to the combination of 75%cellulose and 25%fibre bioplastic,as it demonstrated the lowest water absorption percentage and water vapor permeability. 展开更多

关键词 Agricultural waste Cocoa pod husk Sugarcane bagasse bioplastic film Water absorption Moisture content

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Carbon Metabolism and Bioplastic Production by Halophilic Archaea

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作者 XIANG Hua HAN Jing +3 位作者 HOU Jing ZHAO Dahe CAI Shuangfeng CAI Lei 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2014年第S1期116-118,共3页

1 Introduction Haloarchaea represents a distinct group of Archaea that typically inhabits hypersaline environments,such as salt lakes and sea salterns.They are easy to culture and many haloarchaea are genetically trac... 1 Introduction Haloarchaea represents a distinct group of Archaea that typically inhabits hypersaline environments,such as salt lakes and sea salterns.They are easy to culture and many haloarchaea are genetically tractable,hence they are excellent model systems for research of archaeal genetics, 展开更多

关键词 HALOARCHAEA carbon metabolism bioplastic production

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Influence of Weather and Purity of Plasticizer on Degradation of Cassava Starch Bioplastics in Natural Environmental Conditions

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作者 Michael Ahimbisibwe Noble Banadda +4 位作者 Jeffrey Seay Betty Nabuuma Evans Atwijukire Enoch Wembabazi Ephraim Nuwamanya 《Journal of Agricultural Chemistry and Environment》 2019年第4期237-250,共14页

The threat posed by plastics to the environment has prompted the development of bioplastics. Starch plasticized by glycerol is a key renewable resource in the production of high-quality bioplastics. Previous studies h... The threat posed by plastics to the environment has prompted the development of bioplastics. Starch plasticized by glycerol is a key renewable resource in the production of high-quality bioplastics. Previous studies have availed information on the mechanical quality of starch-based bioplastics however there is limited information about their degradation pattern in the natural environment which this research presents. Bioplastics were buried in holes in loam sandy soil and weekly photographic data and weight were collected to reveal the effect of degradation. Weather parameters of rainfall, temperature, relative humidity, sunshine intensity and sunshine hours were recorded to establish influence of weather on degradation. A control set up in the laboratory was used to compare the results. Over time the tests revealed that as the hydrophilic enzymes break down the bioplastic, its weight initially increases (up to 87%) due to absorption of moisture and after saturation, the bioplastic is disintegrated which initiates decomposition and the bioplastic weight is steadily reduced. Degradation was further enhanced by invasion of soil organisms like worms, termites among other soil microbes. Rainfall (r = 0.857) increased the moisture in the soil which initially increased the weight of the bioplastic up to a point when the hydrophilic enzymes set into breakdown the bioplastic then the weight started to drop. This was the same case for relative humidity (r = ﹣0.04) however;the sunlight intensity (r = 515) and hours of illumination indirectly affect the process by influencing microbial activity. An increase in the sunshine intensity increased the activity of soil organisms up to a point beyond which increased exposure caused the organisms to burrow deeper in the soil. Increase in microbial activity increased the rate of degradation of the buried bioplastics which took five to ten weeks to fully decompose (98.3%). The reduced time of degradation means that starch-based bioplastics have a high potential as sustainable subst 展开更多

关键词 bioplastic DEGRADABILITY Purified GLYCEROL

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3D Printing of Polylactic Acid Bioplastic–Carbon Fibres and Twisted Kevlar Composites Through Coextrusion Using Fused Deposition Modeling 被引量：2

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作者 J.Y.Tey W.H.Yeo +1 位作者 Y.J.King W.O.Ding 《Journal of Renewable Materials》 SCIE EI 2020年第12期1671-1680,共10页

Polylactic acid(PLA)bioplastic is a common material used in Fused Deposition Modeling(FDM)3D printing.It is biodegradable and environmentally friendly biopolymer which made out of corn.However,it exhibits weak mechan... Polylactic acid(PLA)bioplastic is a common material used in Fused Deposition Modeling(FDM)3D printing.It is biodegradable and environmentally friendly biopolymer which made out of corn.However,it exhibits weak mechanical properties which reduced its usability as a functional prototype in a real-world application.In the present study,two PLA composites are created through coextruded with 3K carbon fibres and twisted Kevlar string(as core fibre)to form a fibre reinforced parts(FRP).The mechanical strength of printed parts was examined using ASTM D638 standard with a strain rate of 1 mm/min.It has been demonstrated that the FRPs coextruded with 3K carbon fibres had achieved significant improvement in Young’s modulus(+180.6%,9.205 GPa),ultimate tensile strength(+175.3%,103 MPa)and maximum tensile strain(+21.6%,1.833%).Although the Young’s modulus of Kevlar FRP was found to be similar to as compared to unreinforced PLA(~3.29 GPa),it has gained significant increment in terms of maximum tensile strain(+179.7%,104.64 MPa),and maximum tensile strain(+257%,5.384%).Thus,this study revealed two unique composite materials,in which the 3K carbon FRP can offer stiff and high strength structure while Kevlar FRP offers similar strength but at a higher elasticity. 展开更多

关键词 3D printing Kevlar fibre 3K carbon fibre coextruded reinforced plastic polylactic acid bioplastic

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作为生物塑料应用的角蛋白改性研究进展 被引量：1

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作者 王喜倩 尹国强 +3 位作者 郭清兵 何明 陈文杰 严伟 《化工新型材料》 CAS CSCD 北大核心 2020年第9期58-62,共5页

角蛋白是构成哺乳动物和鸟类毛发的最主要成分,来源广泛,并可生物降解,但其大量废弃会造成资源浪费、污染环境等问题。近年来,废弃角蛋白循环再生应用成为了社会普遍关注的热点,作为生物塑料应用还可以缓解日益枯竭的石油危机,但对其研... 角蛋白是构成哺乳动物和鸟类毛发的最主要成分,来源广泛,并可生物降解,但其大量废弃会造成资源浪费、污染环境等问题。近年来,废弃角蛋白循环再生应用成为了社会普遍关注的热点,作为生物塑料应用还可以缓解日益枯竭的石油危机,但对其研究还处于科学探索阶段。从提高角蛋白在生物塑料中应用的综合利用性能出发,对近几年来角蛋白物理改性、化学改性的研究进展进行了综述,并加以讨论,以期为制备出理想的角蛋白生物塑料提供有益参考。 展开更多

关键词 角蛋白 生物塑料 物理改性 化学改性

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A Literature Review on Sustainability of Bio-Based and Biodegradable Plastics:Challenges and Opportunities

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作者 Taofeeq D.Moshood Gusman Nawanir +3 位作者 Fatimah Mahmud Fazeeda Mohamad Mohd Hanafiah Ahmad Airin AbdulGhani 《Energy Engineering》 EI 2022年第4期1611-1647,共37页

This study examines the literature on bio-based and biodegradable plastics published between 2000 and 2021 and provides insights and research suggestions for the future.The study gathers data from the Scopus and ISI W... This study examines the literature on bio-based and biodegradable plastics published between 2000 and 2021 and provides insights and research suggestions for the future.The study gathers data from the Scopus and ISI Web of Science databases,then picks 1042 publications objectively and analyses their metadata.Furthermore,144 papers from the Web of Science are analysed to present insights and classifications of the literature based on content analyses,including assessment/evaluation of the sustainability of bio-based and biodegradable Plastics,sustainability of biodegradable Plastics,and factors driving the uptake of biodegradable plastics.The study finds that most research on bio-based and biodegradable plastic film evaluations considered only one dimension of sustainability,few considered two dimensions,and very few considered three dimensions.Though,in recent years,academic and industrial interest has grown dramatically in biodegradable plastics towards sustainability.The triple bottom line method in this report(economic benefit,social responsibility,and environmental protection)was employed to assess the biodegradable plastics towards sustainability.Top journals,Influential authors,top contributing institutions,top contributing nations,and contributions by fields are all identified in this study.This research gives a detailed but straightforward theoretical design of bio-based and biodegradable polymers.The study’s results and future research initiatives provide a new path for further investigation and contribution to the field. 展开更多

关键词 Biodegradable plastic bioplastic influential factors life cycle assessment biopolymers triple bottom line(TBL)

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Biofront(PLA)在纤维制造过程中结构的发展及其应用 被引量：1

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作者 森岛一弘 骆为林（译） 行兰（校） 《国际纺织导报》 2011年第2期30-32,38,共4页

生物塑料由于其环境友好性,已吸引了很多注意力,但目前市面上的聚交酯和其他生物塑料在耐热和耐冲击性方面还不及石油基塑料。因此迄今生物塑料的应用受到了限制。帝人公司开发的新型耐热生物塑料Biofront是由聚L-乳酸(PLLA)和其对映体... 生物塑料由于其环境友好性,已吸引了很多注意力,但目前市面上的聚交酯和其他生物塑料在耐热和耐冲击性方面还不及石油基塑料。因此迄今生物塑料的应用受到了限制。帝人公司开发的新型耐热生物塑料Biofront是由聚L-乳酸(PLLA)和其对映体聚D-乳酸(PDLA)组成。过去已知,高熔点晶体,即定向配合物(SC),是在熔融态混合等量的PLLA和PDLA形成的。但SC晶体的形成是不稳定的,且只有在有限的条件下才形成。而Biofront已有改进,能够完全形成稳定的SC晶体。其熔点为210℃,与聚乳酸相比,高出40℃。日本帝人公司在Biofront纤维形成中,已尝试在纤维制造工艺中通过严格的控制形成SC晶体,并建立了必备的基本技术,通过完全的SC晶体达到高耐热性及通用合成纤维同等的力学性能水平,这是采用现有装置生产的纤维所不可能达到的。 展开更多

关键词 Biofront 生物塑料 聚L-乳酸 聚D-乳酸 性能

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