Search

Search Results

1. Asymmetric PET Hybrid Membrane Derived from Waste PET Plastic for Personal Thermal Management Applications

   Controllable fabrication of wearable polyethylene terephthalate (PET) hybrid membrane derived from waste plastic is essential from the viewpoint of...

   Tao Zhang, Xu He, ... Fengxian Qiu in Fibers and Polymers

   Article 02 November 2023
   

2. Mismatch of FAPI PET/CT and FDG PET/CT in evaluating TARE treatment on a rat model of liver cancer

   Tumorous fibrosis, such as desmoplasia and fibrous hyperplasia, is a typical characteristic led by interventional embolization and selective internal...

   Linlin Shi, Rou Li, ... Dong He in Journal of Radioanalytical and Nuclear Chemistry

   Article 29 June 2023
   

3. The Recyclable Dual-Functional Zeolite Nanocrystals Promoting the High Efficiency Glycolysis of PET

   The recycling of polyethylene terephthalate (PET) waste plastics has garnered global attention as an essential area of research to address. Chemical...

   Ge Yang, Hao Wu, ... Zhibo Li in Journal of Polymers and the Environment

   Article 10 May 2024
   

4. A study on microwave-assisted chemical recycling of polyethylene terephthalate (PET) waste

   A simple and efficient microwave depolymerization methodology to recycle disposable polyethylene terephthalate (PET) was demonstrated. Different...

   Abdul W. Allaf, Abdul G. Al Lafi, ... Shahd Adriby in Journal of Polymer Research

   Article 25 January 2024
   

5. Direct Conversion of Waste PET to Regenerated Plastics Using Flame Retardants as Depolymerization Catalysts

   Polyethylene terephthalate (PET) has been extensively used in the packaging industry, particularly for the production of plastic bottles. PET wastes...

   Pyung Soo Lee, Simon MoonGeun Jung in Korean Journal of Chemical Engineering

   Article 24 January 2024
   

6. Operating conditions, products and sustainable recycling routes of aminolysis of polyethylene terephthalate (PET) – a review

   Chemical recycling of Polyethylene Terephthalate (PET) has gotten great attention today. Aminolysis, one of the chemical recycling methods, is the...

   Desalegn Abera Mersha, Tesfa Nega Gesese, ... Atrsaw Jejaw Bezie in Polymer Bulletin

   Article 17 April 2024
   

7. Insight on recently discovered PET polyester-degrading enzymes, thermostability and activity analyses

   The flexibility and the low production costs offered by plastics have made them crucial to society. Unfortunately, due to their resistance to...

   Sunusi Bataiya Buhari, Nima Ghahremani Nezhad, ... Thean Chor Leow in 3 Biotech

   Article 02 January 2024
   

8. Development of PET-AC Composite: Effect of Preparation Method on the Mechanical and Water Absorption Behaviours

   Polyethylene terephthalate (PET) consumption, in particular, is one of the most commonly available plastic wastes and has the fastest growth rate in...

   Oluwaseun Adekoya Adelaja, Daniel Udorah, ... Babatola J.O. in Chemistry Africa

   Article 06 January 2024
   

9. Influence of the addition of glycerol-derived polymers on the properties of post-consumer recycled PET

   In the present work, the influence of glycerol prepolymers as potential chain extenders in the reactive mixture with post-consumer recycled PET...

   A. A. A. Seixas, L. R. F. Figueiredo, ... E. S. Medeiros in Journal of Polymer Research

   Article 07 September 2023
   

10. Enzymatic post-consumer poly(ethylene terephthalate) (PET) depolymerization using commercial enzymes

    Poly(ethylene terephthalate) (PET) is a synthetic polymer widely used globally. The high PET resistance to biotic degradation and its improper...

    Rodrigo Brackmann, Cláudia de Oliveira Veloso, ... Marta Antunes Pereira Langone in 3 Biotech

    Article 25 April 2023
    

11. Preparation of Siloxane-Modified DOPO Flame Retardant Sol–Gel and Its Study on Flame Retardant PET Fabrics

    Abstract

    In order to improve the flame retardant and anti-melt-drip performance of PET fabrics in an environmentally friendly and simple way, two...

    **n Yan, Yihong Wang, ... Liming Wang in Polymer Science, Series B

    Article 01 December 2023
    

12. Towards synthetic PETtrophy: Engineering Pseudomonas putida for concurrent polyethylene terephthalate (PET) monomer metabolism and PET hydrolase expression

    Background

    Biocatalysis offers a promising path for plastic waste management and valorization, especially for hydrolysable plastics such as...

    Oliver F. Brandenberg, Olga T. Schubert, Leonid Kruglyak in Microbial Cell Factories

    Article Open access 18 June 2022
    

13. Mechanochemical and mechanobiological recycling of postconsumer polyethylene terephthalate (PET) plastics under microwave irradiation: a comparative study

    Exploring new solutions to improve the environmentally friendly degradation of fossil based postconsumer plastic waste is key in the development of...

    Olivia A. Attallah, George Taxeidis, ... Margaret Brennan Fournet in Journal of Polymer Research

    Article 21 August 2023
    

14. Fluorine-18 or Gallium-68: The Perspective of PET Radiochemist

    Abstract

    Two radionuclides, ¹⁸ F ( T _1/2 110 min) and ⁶⁸ Ga ( T _1/2 68 min), currently play the leading role in the development of positron emission...

    R. N. Krasikova in Radiochemistry

    Article 01 April 2023

15. Exploration of fibers produced from petroleum based-mesophase pitch and pet blends for carbon fiber production

    Petroleum-derived mesophase pitch and polyethylene terephthalate (PET) were blended and melt-extruded to create precursor fibers. The raw blends,...

    Alexander Scherschel, Timothy Harrell, ... **aodong Li in Journal of Polymer Research

    Article 17 August 2023
    

16. Flammability analysis of poly(ethylene terephthalate) and recycled PET with pyrolyzed filler

    The future is the recovery of the filler and its reuse in hybrid materials. It is important that as a result of recycling, the filler does not lose...

    Tomasz M. Majka in Journal of Polymer Research

    Article Open access 22 August 2023
    

17. Fluorimetric visualization of the dispersal of polyethylene terephthalate (PET) filler in polyurethane foams

    The use of organic fillers such as recycled polyethylene terephthalate (PET) represents an interesting environmentally friendly alternative for...

    Roberto V. Luiz, Gustavo T. M. Silva, Frank H. Quina in Brazilian Journal of Chemical Engineering

    Article 04 April 2023
    

18. Development and characterization of sustainable 3D printing filaments using post-consumer recycled PET: processing and characterization

    In recent times, FDM technology has been extensively utilized to reuse small-scale thermoplastic waste materials to produce 3D-printed structures for...

    Ch Kapil Ror, Sushant Negi, Vishal Mishra in Journal of Polymer Research

    Article 16 August 2023
    

19. Effect of waste PET blending on the physical and chemical characteristics of activated carbons

    Polyethylene terephthalate (PET) has been identified as a primary contributor to the persistent negative impact of environmental pollution globally,...

    Woo Seok Cho, Joon Hyuk Lee, Sang Sun Choi in Macromolecular Research

    Article 22 August 2023
    

20. Obtaining Multiple Colors and Luster after One-Time Printing with Plasma Treated PET-TiO₂ Fabrics

    In this study, multiple colors and deluster polyethylene terephthalate (PET) fabrics at one-time printing were obtained by different plasma treating...

    Tarig T. A. Owad, Amel E. A. Elabid, ... **g Zhang in Plasma Chemistry and Plasma Processing

    Article 11 July 2023