P. Streit scite author profile

A new generation of partially or even fully biodegradable implants is emerging. The idea of using temporary devices is to avoid a second surgery to remove the implant after its period of use, thereby improving considerably the patient's comfort and safety. This paper provides a state-of-the-art overview and an experimental section that describes the key technological challenges for making biodegradable devices. The general considerations for the design and synthesis of biodegradable components are illustrated with radiofrequency-driven resistor-inductor-capacitor (RLC ) resonators made of biodegradable metals (Mg, Mg alloy, Fe, Fe alloys) and biodegradable conductive polymer composites (polycaprolactone-polypyrrole, polylactide-polypyrrole). Two concepts for partially/fully biodegradable wireless implants are discussed, the ultimate goal being to obtain a fully biodegradable sensor for in vivo sensing.

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Characterization of miniaturized RLC resonators made of biodegradable materials for wireless implant applications

Boutry

Chandrahalim

Streit

et al. 2013

Sensors and Actuators A: Physical

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Luminescence properties of the monoclinic phase of ferromagnetic Eu2(II)SiO4

Kaldis

Streit

Wächter

1971

Journal of Physics and Chemistry of Solids

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Antiferromagnetic resonance in EuTe

Streit

Everett

1980

Phys. Rev. B

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Effect of magnetic ordering on the photoluminescence of EuS and EuTe

Busch

Streit

Wächter

1970

Solid State Communications

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P. Streit

Towards biodegradable wireless implants

Characterization of miniaturized RLC resonators made of biodegradable materials for wireless implant applications

Luminescence properties of the monoclinic phase of ferromagnetic Eu2(II)SiO4

Antiferromagnetic resonance in EuTe

Effect of magnetic ordering on the photoluminescence of EuS and EuTe

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