Renaissance of aliphatic polycarbonates: New techniques and biomedical applications

Xu, Jianwen; Feng, Ellva; Song, Jie

doi:10.1002/app.39822

Cited by 133 publications

(131 citation statements)

References 171 publications

(241 reference statements)

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“…Song et al and Zhang et al recently reviewed a number of cyclic carbonates used in the ROP of aliphatic polycarbonates as well as their biomedical applications. 111,112 …”

Section: Dihydroxyacetone Synthonsmentioning

confidence: 99%

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Synthetic Biomaterials from Metabolically Derived Synthons

et al. 2016

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The utility of metabolic synthons as the building blocks for new biomaterials is based on the early application and success of hydroxy acid based polyesters as degradable sutures and controlled drug delivery matrices. The sheer number of potential monomers derived from the metabolome (e.g., lactic acid, dihydroxyacetone, glycerol, fumarate) gives rise to almost limitless biomaterial structural possibilities, functionality, and performance characteristics, as well as opportunities for the synthesis of new polymers. This review describes recent advances in new chemistries, as well as the inventive use of traditional chemistries, toward the design and synthesis of new polymers. Specific polymeric biomaterials can be prepared for use in varied medical applications (e.g., drug delivery, tissue engineering, wound repair, etc.) through judicious selection of the monomer and backbone linkage.

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“…Song et al and Zhang et al recently reviewed a number of cyclic carbonates used in the ROP of aliphatic polycarbonates as well as their biomedical applications. 111,112 …”

Section: Dihydroxyacetone Synthonsmentioning

confidence: 99%

“…111 When the aliphatic building block is GL, the added functionalities of biocompatibility and biodegradability become key for subsequent use. A number of protected GL-based cyclic carbonates have been described and reviewed.…”

Section: Glycerol Synthonsmentioning

confidence: 99%

Synthetic Biomaterials from Metabolically Derived Synthons

et al. 2016

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“…Hence, it is widely used in automotive industry, components of aircraft, electronics, data storage, and biomedical devices such as hemodialyzers, drug delivery carriers, blood oxygenators, and arterial filters [19]. However, PCs have certain drawbacks such as less antibacterial activities, stress cracking, low scratch resistance, high sensitivity to abrasive cleaners, and ability to deteriorate in many organic solvents [18,19]. Generally, the PC's antibacterial activity is being enhanced by functionalizing reactive groups/blending with other antibacterial materials [20][21][22][23].…”

Section: Introductionmentioning

confidence: 99%

Graphene Oxide Reinforced Polycarbonate Nanocomposite Films with Antibacterial Properties

Mahendran

Sridharan

Santhakumar

et al. 2016

Indian Journal of Materials Science

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The incorporation of carbonaceous nanofillers into polymers can result in significant materials with improved physicochemical properties and novel composite functionalities. In this study, we have fabricated antibacterial, lightweight, transparent, and flexible graphene oxide (GO) reinforced polycarbonate thin films by a facile and low-cost methodology. Solution blending is employed to get a homogeneous mixture of PC-GO composites at various loading of GO, and the thin films are prepared by dry-wet phase inversion technique. Thermal studies and micrographs of the films revealed the incorporation of GO in PC matrix. Microstructure of the thin films showed the homogeneous dispersion of GO at micro-and nanoscales; however, at higher loading of GO (0.7%), significant agglomeration is observed. More importantly, PC-GO composite films exhibited excellent antibacterial activities against E. coli and S. aureus, owing to the antibacterial nature of GO nanoparticles.

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“…Among them, polycarbonates are most promising since they are biodegradable, biocompatible and result in nontoxic degradation products. They are also easy to synthesize due to improvements in polymerization techniques [10]. Furthermore, the cyclic carbonate monomers used have the potential for greater functional diversity compared to cyclic ethers and esters.…”

mentioning

confidence: 99%

“…Several studies report on the ability of polymeric micelles with a carbonate-based hydrophobic core to improve loading of anticancer drugs [10,11]. Careful review of the literature suggests two main approaches.…”

mentioning

confidence: 99%

Polycarbonate Micelles for Cancer Therapy

Danquah¹

2014

J Cancer Sci Ther

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Renaissance of aliphatic polycarbonates: New techniques and biomedical applications

Cited by 133 publications

References 171 publications

Synthetic Biomaterials from Metabolically Derived Synthons

Synthetic Biomaterials from Metabolically Derived Synthons

Graphene Oxide Reinforced Polycarbonate Nanocomposite Films with Antibacterial Properties

Polycarbonate Micelles for Cancer Therapy

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