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Yixiao Yu

Donghua University

SCHOLARLY PAPERS

4

DOWNLOADS

122

TOTAL CITATIONS

2

Scholarly Papers (4)

Designing Hydrolysis-Resistant Ti/Zn Bimetallic Catalyst Based on the Coordination Activation Mechanism to Synthesize High Molecular Weight Ppet

Number of pages: 24 Posted: 10 Jan 2024
Donghua University, affiliation not provided to SSRN, Donghua University, Donghua University, Donghua University, Donghua University and Donghua University
Downloads 36 (1,281,607)

Abstract:

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Poly (1, 5-pentylene terephthalate), Ti/Zn catalyst, bimetallic active center, hydrolysis resistance, heavy metal free

Designing Hydrolysis-Resistant Ti/Zn Bimetallic Catalyst Based on the Coordination Activation Mechanism to Synthesize High Molecular Weight Ppet

Number of pages: 24 Posted: 08 Feb 2024
Donghua University, affiliation not provided to SSRN, Donghua University, Donghua University, Donghua University, Donghua University and Donghua University
Downloads 18 (1,525,626)

Abstract:

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Poly (1, 5-pentylene terephthalate), Ti/Zn catalyst, hydrolysis resistance

2.

Sustainable Synthesis of Recycled PECT Copolyesters via Depolymerization-Homogenization: A Green Route to High-Value Materials from PET Waste

Number of pages: 33 Posted: 09 Oct 2025
Donghua University, Donghua University, Donghua University, Donghua University, Donghua University and Donghua University
Downloads 30 (1,345,526)

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Waste PET recycling, Depolymerization-repolymerization mechanism, Upgrade recycling

3.

Preparation and Melt-Spun Applications of Pa6-Based Poly(Amide-Ether) Copolymers Phase Change Fibers with Passive Temperature Management

Number of pages: 42 Posted: 21 Sep 2024
affiliation not provided to SSRN, Donghua University, Donghua University, affiliation not provided to SSRN, affiliation not provided to SSRN, Donghua University, Donghua University and Donghua University
Downloads 23 (1,411,822)
Citation 2

Abstract:

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Poly(amide-ether) copolymers, Microphase separation structure, melt spinning, Phase change fibers, Temperature Management

4.

Iminodiacetic Acid Enhances the Mechanical and Degradation Properties of Copolyesters by Hydrogen Bonding and Branching

Number of pages: 20 Posted: 20 Sep 2024
Donghua University, Donghua University, Donghua University, Donghua University, Donghua University, Donghua University and Donghua University
Downloads 15 (1,509,872)

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aliphatic-aromatic copolyesters, diethyl iminodiacetate, environmental degradation, branched entanglement