Ziyue Jiao scite author profile

Ziyue Jiao

3Publications

39Citation Statements Received

139Citation Statements Given

How they've been cited

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152

135

Affiliations

Dalian University, Dalian University of Technology

Publications

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A Sequential Dual‐Model Strategy Based on Photoactivatable Metallopolymer for On‐Demand Release of Photosensitizers and Anticancer Drugs

Wang

et al. 2021

Advanced Science

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The synergistic combination of chemotherapy and photodynamic therapy has attracted considerable attention for its enhanced antitumoral effects; however, it remains challenging to successfully delivery photosensitizers and anticancer drugs while minimizing drug leakage at off-target sites. A red-light-activatable metallopolymer, Poly(Ru/PTX), is synthesized for combined chemo-photodynamic therapy. The polymer has a biodegradable backbone that contains a photosensitizer Ru complex and the anticancer drug paclitaxel (PTX) via a singlet oxygen ( 1 O 2 ) cleavable linker. The polymer self-assembles into nanoparticles, which can efficiently accumulate at the tumor sites during blood circulation. The distribution of the therapeutic agents is synchronized because the Ru complex and PTX are covalently conjugate to the polymer, and off-target toxicity during circulation is also mostly avoided. Red light irradiation at the tumor directly cleaves the Ru complex and produces 1 O 2 for photodynamic therapy. Sequentially, the generated 1 O 2 triggers the breakage of the linker to release the PTX for chemotherapy. Therefore, this novel sequential dual-model release strategy creates a synergistic chemo-photodynamic therapy while minimizing drug leakage. This study offers a new platform to develop smart delivery systems for the on-demand release of therapeutic agents in vivo.

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Mechanically Robust and Chemically Recyclable Polyhydroxyurethanes from CO₂-Derived Six-Membered Cyclic Carbonates

Miao

Jiao

Liu

et al. 2022

ACS Appl. Mater. Interfaces

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In the current context of sustainable chemistry development and new regulations, aminolysis of cyclic carbonate is one of the most promising routes to nonisocyanate polyurethanes, also called polyhydroxyurethanes (PHU). In this study, a new kind of shape memory PHU vitrimers with outstanding mechanical properties and chemical recyclability is prepared. The monomer employed for aminolysis to form the PHUs is bis(six-membered cyclic carbonate) of 4,4′-biphenol (BCC-BP), which is synthesized by bi(1,3-diol) precursors and CO 2 . The synthetic strategy, isocyanate-free and employing CO 2 as a building block, is environmentally friendly and suits the concept of carbon neutrality. The thermal properties, mechanical properties, and dynamic behaviors of the PHUs are explored. The maximum breaking strength and elongation at break of the resultant PHUs reach 65 MPa and 452%, respectively, exceeding other reported PHU-based materials in combined performance. Such a PHU material can also lift up a load 4700 times heavier than its own weight by a shape recovery process. Finally, the bi(1,3-diol) can be regenerated through the alcoholysis of PHUs to realize chemical recycling. This work provides a feasibility study for a green synthetic approach and for designing a novel PHU material with outstanding properties.

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Redox-responsive phenyl-functionalized polylactide micelles for enhancing Ru complexes delivery and phototherapy

Zhang

Jiao

et al. 2023

Chinese Chemical Letters

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Ziyue Jiao

A Sequential Dual‐Model Strategy Based on Photoactivatable Metallopolymer for On‐Demand Release of Photosensitizers and Anticancer Drugs

Mechanically Robust and Chemically Recyclable Polyhydroxyurethanes from CO₂-Derived Six-Membered Cyclic Carbonates

Redox-responsive phenyl-functionalized polylactide micelles for enhancing Ru complexes delivery and phototherapy

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Ziyue Jiao

A Sequential Dual‐Model Strategy Based on Photoactivatable Metallopolymer for On‐Demand Release of Photosensitizers and Anticancer Drugs

Mechanically Robust and Chemically Recyclable Polyhydroxyurethanes from CO2-Derived Six-Membered Cyclic Carbonates

Redox-responsive phenyl-functionalized polylactide micelles for enhancing Ru complexes delivery and phototherapy

Contact Info

Product

Resources

About

Mechanically Robust and Chemically Recyclable Polyhydroxyurethanes from CO₂-Derived Six-Membered Cyclic Carbonates