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polymeric material combining at the same time two properties
polympart: Scientists of Tomsk Polytechnic University jointly with their colleagues from the University of Aveiro (Portugal) and a number of some overseas universities have developed a polymeric material combining at the same time two properties, which are important for further application in medical implants. ,the Biodegradable Polymer i.e. capable to dissolve in a human body after some time, as well as possesses improved piezoelectric properties such as a capability to generate electric charge accelerating tissue regeneration.
It became possible to improve material properties due to the impurity of reduced graphene oxide (rGO) flakes. The research findings are published in the Nano Energy academic journal (IF: 17,881; Q1). The research work is supported by a mega-grant of the Government of the Russian Federation.
materials possessing piezoelectric properties
“Nowadays, materials possessing piezoelectric properties are noteworthy for regenerative medicine as they are capable to generate electric charge without an external source of electrical energy, for instance, if the material is twisted or strained in the other way. Electrical impulses contribute to the stimulation of regeneration of living tissues, such as bone or nervous tissues after traumas. As a rule, worth piezoelectrics are not biodegradable. Biodegradation is a very important property for an implant, as a biodegradable implant is not required extraction after tissue regeneration, it falls apart into harmless components. It must be mentioned that extraction means a new surgery, probable tissue injury and risk infection,” Roman Chernozem, Research Fellow of the TPU International Research Center for Piezo- and Magnetoelectric Materials, one of the article authors, says.
The obtained material visually reminds a greyish fabric. This fiber construction simulates scaffolding and is called a scaffold. Cells literally fill this fiber construction generating new tissues in an injured spot.
“We were able to create a material with the worth piezoelectric properties, notably, a biodegradable material. There are only a few such polymers in the world,”
Poly-3-hydroxybutyrate (P3HB), a biodegradable polymer
Roman Surmenev, Director of the TPU Research Center for Physical Materials Science and Composite Materials, explains. “Poly-3-hydroxybutyrate (P3HB), a biodegradable polymer, which was already used for research, was taken as basic material. In the initial polymer solution, there was added rGO nanoflakes. As we forecast, this additive essentially changed a molecular composition and polymer structure.”
There was an increased electric charge (potential) of the obtained hybrid scaffolds on the surface by 9.5 folds and increased piezoelectric response by 2.5 folds in comparison with an unpromoted polymer. For the first time, there were also studied the piezoelectric properties of the polymer at the nanoscale. According to the article authors, the piezoelectric properties of the developed hybrid biodegradable scaffolds surpass the piezoelectric response of human’s bone tissue and сollagen.
The scientists are intending to research further how the new material interacts with living cells and tissues in order the material will be applicable for the production of biodegradable implants of the vast scope of application.
“The material is promising for implants in bone tissue engineering, regeneration of nervous tissue and some other vital types of tissues,” Andrey Kholkin, Director of the TPU International Research Center for Piezo- and Magnetoelectric Materials, adds.
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