Miaomiao Yang scite author profile

A remarkable feature of modern silicon electronics is its ability to remain functionally and physically invariant, almost indefinitely for many practical purposes. Here, we introduce a silicon-based technology that offers the opposite behavior: it gradually vanishes over time, in a well-controlled, programmed manner. Devices that are ‘transient’ in this sense create application possibilities that cannot be addressed with conventional electronics, such as active implants that exist for medically useful timeframes, but then completely dissolve and disappear via resorption by the body. We report a comprehensive set of materials, manufacturing schemes, device components and theoretical design tools for a complementary metal oxide semiconductor (CMOS) electronics of this type, together with four different classes of sensors and actuators in addressable arrays, two options for power supply and a wireless control strategy. A transient silicon device capable of delivering thermal therapy in an implantable mode and its demonstration in animal models illustrate a system-level example of this technology.

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Silk-based resorbable electronic devices for remotely controlled therapy and in vivo infection abatement

Tao

Hwang

Marelli

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

299

292

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A paradigm shift for implantable medical devices lies at the confluence between regenerative medicine, where materials remodel and integrate in the biological milieu, and technology, through the use of recently developed material platforms based on biomaterials and bioresorbable technologies such as optics and electronics. The union of materials and technology in this context enables a class of biomedical devices that can be optically or electronically functional and yet harmlessly degrade once their use is complete. We present here a fully degradable, remotely controlled, implantable therapeutic device operating in vivo to counter a Staphylococcus aureus infection that disappears once its function is complete. This class of device provides fully resorbable packaging and electronics that can be turned on remotely, after implantation, to provide the necessary thermal therapy or trigger drug delivery. Such externally controllable, resorbable devices not only obviate the need for secondary surgeries and retrieval, but also have extended utility as therapeutic devices that can be left behind at a surgical or suturing site, following intervention, and can be externally controlled to allow for infection management by either thermal treatment or by remote triggering of drug release when there is retardation of antibiotic diffusion, deep infections are present, or when systemic antibiotic treatment alone is insufficient due to the emergence of antibiotic-resistant strains. After completion of function, the device is safely resorbed into the body, within a programmable period.biomaterials | resorbable electronics | drug delivery | theranostics | silk

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Silk‐Based Conformal, Adhesive, Edible Food Sensors

et al. 2012

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An array of passive metamaterial antennas fabricated on all protein-based silk substrates were conformally transferred and adhered to the surface of an apple. This process allows the opportunity for intimate contact of micro- and nanostructures that can probe, and accordingly monitor changes in, their surrounding environment. This provides in situ monitoring of food quality. It is to be noted that this type of sensor consists of all edible and biodegradable components, holding utility and potential relevance for healthcare and food/consumer products and markets.

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Inkjet Printing of Regenerated Silk Fibroin: From Printable Forms to Printable Functions

et al. 2015

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Preparation and electrochemical performance of polyaniline-based carbon nanotubes as electrode material for supercapacitor

Yang

Chen

Song

et al. 2010

Electrochimica Acta

245

101

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Miaomiao Yang

A Physically Transient Form of Silicon Electronics

Silk-based resorbable electronic devices for remotely controlled therapy and in vivo infection abatement

Silk‐Based Conformal, Adhesive, Edible Food Sensors

Inkjet Printing of Regenerated Silk Fibroin: From Printable Forms to Printable Functions

Preparation and electrochemical performance of polyaniline-based carbon nanotubes as electrode material for supercapacitor

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