Peiyi Song scite author profile

The first triboelectric-nanogenerator (TENG)-based self-powered implantable drug-delivery system is presented. Pumping flow rates from 5.3 to 40 µL min under different rotating speeds of the TENG are realized. The implantable drug-delivery system can be powered with a TENG device rotated by human hand motion. Ex vivo trans-sclera drug delivery in porcine eyes is demonstrated by utilizing the biokinetic energies of human hands.

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Nanowire-array-based gene electro-transfection system driven by human-motion operated triboelectric nanogenerator

Yang

Ouyang

et al. 2019

Nano Energy

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Approaches and Challenges of Engineering Implantable Microelectromechanical Systems (MEMS) Drug Delivery Systems for in Vitro and in Vivo Applications

Tng

Song

et al. 2012

Micromachines

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Despite the advancements made in drug delivery systems over the years, many challenges remain in drug delivery systems for treating chronic diseases at the personalized medicine level. The current urgent need is to develop novel strategies for targeted therapy of chronic diseases. Due to their unique properties, microelectromechanical systems (MEMS) technology has been recently engineered as implantable drug delivery systems for disease therapy. This review examines the challenges faced in implementing implantable MEMS drug delivery systems in vivo and the solutions available to overcome these challenges.

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Peiyi Song

Self-powered, on-demand transdermal drug delivery system driven by triboelectric nanogenerator

A Self‐Powered Implantable Drug‐Delivery System Using Biokinetic Energy

Nanowire-array-based gene electro-transfection system driven by human-motion operated triboelectric nanogenerator

Approaches and Challenges of Engineering Implantable Microelectromechanical Systems (MEMS) Drug Delivery Systems for in Vitro and in Vivo Applications

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