Identification of Biodegradable, Compostable or Toxic Plastic Bags with Two Beetles of the Tenebrionidae Family

[1]  Lizbeth Rojas,et al.  Biodegradación del plástico con larvas de insecto Tenebrio molitor como contribución interdisciplinar a la biotecnología a la biotecnología medioambiental , 2023, Ciencia UNEMI.

[2]  P. Jia,et al.  Plastic biodegradation by in vitro environmental microorganisms and in vivo gut microorganisms of insects , 2023, Frontiers in Microbiology.

[3]  Jiaming Wang,et al.  Comparison on the effectiveness of Fourier transform infrared (FT-IR) and attenuated total reflection Fourier transform infrared (ATR-FT-IR) in characterizing plastics biodegradation by insect larvae. , 2022, The Science of the total environment.

[4]  V. Thakur,et al.  Recent developments in microbial degradation of polypropylene: Integrated approaches towards a sustainable environment. , 2022, The Science of the total environment.

[5]  A. Bieganowski,et al.  Biodegradation of Different Types of Plastics by Tenebrio molitor Insect , 2021, Polymers.

[6]  Wei-Min Wu,et al.  Biodegradation of polylactic acid by yellow mealworms (larvae of Tenebrio molitor) via resource recovery: A sustainable approach for waste management. , 2021, Journal of hazardous materials.

[7]  S. Devipriya,et al.  Biodegradation of polystyrene wastes by a newly reported honey bee pest Uloma sp. larvae: An insight to the ability of polystyrene-fed larvae to complete its life cycle , 2021 .

[8]  Vishal Goel,et al.  Biodegradable/Bio-plastics: Myths and Realities , 2021, Journal of Polymers and the Environment.

[9]  S. Alfei,et al.  Biodegradable and Compostable Shopping Bags under Investigation by FTIR Spectroscopy , 2021, Applied Sciences.

[10]  N. Ren,et al.  Biodegradation of polypropylene by yellow mealworms (Tenebrio molitor) and superworms (Zophobas atratus) via gut-microbe-dependent depolymerization. , 2020, The Science of the total environment.

[11]  C. Criddle,et al.  Biodegradation of Polyvinyl Chloride (PVC) in Tenebrio molitor (Coleoptera: Tenebrionidae) larvae. , 2020, Environment international.

[12]  Li Yang,et al.  Biodegradation of expanded polystyrene and low-density polyethylene foams in larvae of Tenebrio molitor Linnaeus (Coleoptera: Tenebrionidae): Broad versus limited extent depolymerization and microbe-dependence versus independence. , 2020, Chemosphere.

[13]  C. Criddle,et al.  Biodegradation of low-density polyethylene and polystyrene in superworms, larvae of Zophobas atratus (Coleoptera: Tenebrionidae): Broad and limited extent depolymerization. , 2020, Environmental pollution.

[14]  Youri Yang,et al.  Biodegradation of polyethylene: a brief review , 2020, Applied Biological Chemistry.

[15]  G. Jiang,et al.  Structure and improved properties of PPC/PBAT blends via controlling phase morphology based on melt viscosity , 2020 .

[16]  C. Criddle,et al.  Biodegradation of Polystyrene by Dark ( Tenebrio obscurus) and Yellow ( Tenebrio molitor) Mealworms (Coleoptera: Tenebrionidae). , 2019, Environmental science & technology.

[17]  A. H. D. Abdullah,et al.  Physical and chemical properties of corn, cassava, and potato starchs , 2018, IOP Conference Series: Earth and Environmental Science.

[18]  Jizhong Zhou,et al.  Biodegradation of Polyethylene and Plastic Mixtures in Mealworms (Larvae of Tenebrio molitor) and Effects on the Gut Microbiome. , 2018, Environmental science & technology.

[19]  A. Mendoza‐Wilson,et al.  Propiedades y posibles aplicaciones de las proteínas de salvado de trigo , 2018 .

[20]  Y. Bayon,et al.  FTIR microscopy contribution for comprehension of degradation mechanisms in PLA-based implantable medical devices , 2017, Journal of Materials Science: Materials in Medicine.

[21]  Lesly Patricia Tejeda Benítez,et al.  Evaluación de la degradación ambiental de bolsas plásticas biodegradables , 2016 .

[22]  Ruifu Yang,et al.  Biodegradation and Mineralization of Polystyrene by Plastic-Eating Mealworms: Part 1. Chemical and Physical Characterization and Isotopic Tests. , 2015, Environmental science & technology.

[23]  Ruifu Yang,et al.  Biodegradation and Mineralization of Polystyrene by Plastic-Eating Mealworms: Part 2. Role of Gut Microorganisms. , 2015, Environmental science & technology.

[24]  Julia Reisser,et al.  Plastic Pollution in the World's Oceans: More than 5 Trillion Plastic Pieces Weighing over 250,000 Tons Afloat at Sea , 2014, PloS one.

[25]  Lei Jiang,et al.  Evidence of polyethylene biodegradation by bacterial strains from the guts of plastic-eating waxworms. , 2014, Environmental science & technology.

[26]  Wenlei Xie,et al.  Synthesis of cationic starch with a high degree of substitution in an ionic liquid , 2010 .

[27]  Wei Yang,et al.  Thermal and mechanical properties of chemical crosslinked polylactide (PLA) , 2008 .

[28]  J. Six,et al.  Surface characteristics of PLA and PLGA films , 2006 .

[29]  Andrea Corti,et al.  Standardization and certification in the area of environmentally degradable plastics , 2006 .

[30]  Joseph Irudayaraj,et al.  Characterization of irradiated starches by using FT-Raman and FTIR spectroscopy. , 2002, Journal of agricultural and food chemistry.

[31]  J. Rybak,et al.  The studies on waste biodegradation by Tenebrio molitor , 2017 .