Synthesis of Thermo‐, Oxidation‐, pH‐, and CO<sub>2</sub>‐Responsive Polymers via the Combination of Aza‐Michael and Thiol‐Michael Reactions in One Pot

Qin, Herong; Xu, Chi; Luo, Dong; Wang, Biyun; Tan, Qinglan; Liang, Hui; Lu, Jiang; Huang, Jianbing

doi:10.1002/marc.201900342

Cited by 9 publications

(5 citation statements)

References 46 publications

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“…The oxidation of the thioether to sulfoxide or sulfone was further verified by FT-IR (Figure S11). Moreover, the diameter of nano-assemblies distinctively decreasing from 40 to 18 nm after oxidation (Figure S8A) also indicates the polymer to be ROS-responsive.…”

Section: Resultsmentioning

confidence: 93%

“…The overproduction of ROSs causes oxidative stress, which often destructs the structure of DNA, lipids, and proteins. 40 The thioether functionalities in the backbone can be oxidized to hydrophilic sulfoxide or sulfone groups, 46,47 and thus, PEGDA−ODT−SADA is considered to be ROSresponsive. The ROS response of the polymer was confirmed by 1 H NMR.…”

Section: Resultsmentioning

confidence: 99%

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Aggregation-Induced Emission-Active Fluorescent Polymer: Multi-Targeted Sensor and ROS Scavenger

Qin

Huang

Liang

et al. 2021

ACS Appl. Mater. Interfaces

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A multi-functional polymer with aggregation-induced emission (AIE)-active salicylaldehyde azine (SA) functionality and reactive oxygen species (ROS)-responsive thioether groups is readily prepared via thiol-ene click polymerization of SA derivative diacrylate monomer, poly(ethylene glycol) diacrylate, and 3,6-dioxa-1,8-octanedithiol. The obtained AIE-active polymer exhibited an unexpected strong emission in amide solvents compared to that in other common organic solvents that was dramatically decreased by adding a trace amount of water, suggesting that the polymer could be utilized as a water trace indicator in amide solvents. In the backbone, the PEG segments make the polymer well dispersed in water and the ROS-responsive thioether groups enable this polymer as a promising ROS scavenger, with embedded SA moieties as a fluorescent indicator for the hemolysis determination. Due to the ability of SA moieties to complex with Cu2+, this AIE polymer can also be utilized as a fluorescent sensor for selective Cu2+ detection in real-world water samples. Thus, this multi-functional polymer is anticipated to be well applied in biological and environmental applications.

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Section: Resultsmentioning

confidence: 93%

Section: Resultsmentioning

confidence: 99%

Aggregation-Induced Emission-Active Fluorescent Polymer: Multi-Targeted Sensor and ROS Scavenger

Qin

Huang

Liang

et al. 2021

ACS Appl. Mater. Interfaces

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“…This strategy is simple and applicable to a wide range of monomers, and many temperature/pH/CO 2 -responsive copolymers have been reported. [30][31][32][33][34] However, the purification of copolymers is usually complex, the responsive interval is generally wide, and more importantly, due to the incompatibility of each block, it is difficult to systematically explore the relationship between the polymeric structures and their responsiveness. Another method has been developed by combining temperature and pH/CO 2 responsive groups in a single monomer, and temperature/pH/CO 2 -responsive homopolymers can be obtained by the polymerization of monomers which can overcome the above shortcomings.…”

Section: Introductionmentioning

confidence: 99%

Preparation and characterization of temperature/pH/CO₂-triple-responsive homopolymers and their substituent determined response

Wang,

et al. 2024

Polym. Chem.

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“…There are mainly two types of multistimuli-responsive polymers: multistimuli-responsive copolymers and multistimuli-responsive homopolymers. Between them, copolymers have been studied and applied more because of their simple design principle and wide application scope. − Their types are very rich, for example, temperature/pH, − temperature/pH/redox, , O 2 /CO 2 , temperature/pH/light, , temperature/pH/oxidation/light, , and temperature/pH/CO 2 /oxidation. , However, this kind of copolymers usually has some shortcomings: (1) the synthesis or purification steps of copolymers are usually complicated, and the molecular controllability is poor; (2) the response range of a copolymer is generally broad, and the sensitivity is relatively low; (3) due to the incompatibility of each block, it is difficult to systematically study the relationship between different responsiveness and its structure. However, multistimuli-responsive homopolymers, prepared by precisely setting the spatial arrangement of different responsive groups in the monomer first and then polymerization, can greatly alleviate the abovementioned shortcomings. − …”

Section: Introductionmentioning

confidence: 99%

Novel Temperature/pH/CO₂/Redox-Quadruple-Responsive Ferrocene-Containing Homopolymers and Their Self-Assembly Behavior

Wang,

Zhang,

et al. 2023

Macromolecules

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A series of temperature/pH/CO 2 /redox-quadrupleresponsive ferrocene-containing homopolymers were prepared for the first time. These homopolymers contain hydrophilic ethoxy group, amino group, and hydrophobic ferrocene (Fc) and were synthesized by reversible addition−fragmentation chain transfer (RAFT) polymerization. They showed four different stimuli responses. (1) They exhibit an upper critical solution temperature (UCST) in n-propyl alcohol and n-butanol, which can be adjusted by the molecular structure, molecular weight, and concentration.(2) They have a critical pH in aqueous solution and are affected by molecular structure, molecular weight, and concentration. (3) The CO 2 response of the homopolymers was confirmed by cyclic bubbling CO 2 /N 2 to the solution. (4) The redox response of homopolymers was demonstrated by adding a chemical oxidant (FeCl 3 )/reductant (VC) or electrical stimulation to the solution of homopolymers. In addition, these homopolymers are amphiphilic, and their self-assembly behavior in solution was investigated. It was found that they have different critical micelle concentrations (cmc) and can form lamella, sphere, and agglomerated sphere in solution, and the morphology can be reversibly changed by applying stimulation. Finally, the release behavior of micelles of the homopolymer was explored by wrapping Nile Red (NR), which proved that they had good release efficiency. These temperature/ pH/CO 2 /redox-quadruple-responsive ferrocene-containing homopolymers expand the types of multistimuli-responsive homopolymers and have excellent application prospects in the fields of self-assembly, drug delivery, and electrode materials.

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Synthesis of Thermo‐, Oxidation‐, pH‐, and CO₂‐Responsive Polymers via the Combination of Aza‐Michael and Thiol‐Michael Reactions in One Pot

Cited by 9 publications

References 46 publications

Aggregation-Induced Emission-Active Fluorescent Polymer: Multi-Targeted Sensor and ROS Scavenger

Aggregation-Induced Emission-Active Fluorescent Polymer: Multi-Targeted Sensor and ROS Scavenger

Preparation and characterization of temperature/pH/CO₂-triple-responsive homopolymers and their substituent determined response

Novel Temperature/pH/CO₂/Redox-Quadruple-Responsive Ferrocene-Containing Homopolymers and Their Self-Assembly Behavior

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Synthesis of Thermo‐, Oxidation‐, pH‐, and CO2‐Responsive Polymers via the Combination of Aza‐Michael and Thiol‐Michael Reactions in One Pot

Cited by 9 publications

References 46 publications

Aggregation-Induced Emission-Active Fluorescent Polymer: Multi-Targeted Sensor and ROS Scavenger

Aggregation-Induced Emission-Active Fluorescent Polymer: Multi-Targeted Sensor and ROS Scavenger

Preparation and characterization of temperature/pH/CO2-triple-responsive homopolymers and their substituent determined response

Novel Temperature/pH/CO2/Redox-Quadruple-Responsive Ferrocene-Containing Homopolymers and Their Self-Assembly Behavior

Contact Info

Product

Resources

About

Synthesis of Thermo‐, Oxidation‐, pH‐, and CO₂‐Responsive Polymers via the Combination of Aza‐Michael and Thiol‐Michael Reactions in One Pot

Preparation and characterization of temperature/pH/CO₂-triple-responsive homopolymers and their substituent determined response

Novel Temperature/pH/CO₂/Redox-Quadruple-Responsive Ferrocene-Containing Homopolymers and Their Self-Assembly Behavior