Dibenzothiophene-Based Planar Conjugated Polymers for High Efficiency Polymer Solar Cells

Epidermal electronics with advanced capabilities in near field communications (NFC) are presented. The systems include stretchable coils and thinned NFC chips on thin, low modulus stretchable adhesives, to allow seamless, conformal contact with the skin and simultaneous capabilities for wireless interfaces to any standard, NFC-enabled smartphone, even under extreme deformation and after/during normal daily activities.

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Wireless, battery-free, flexible, miniaturized dosimeters monitor exposure to solar radiation and to light for phototherapy

Heo

Kim

Gutruf

et al. 2018

Sci. Transl. Med.

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Exposure to electromagnetic radiation can have a profound impact on human health. Ultraviolet (UV) radiation from the sun causes skin cancer. Blue light affects the body’s circadian melatonin rhythm. At the same time, electromagnetic radiation in controlled quantities has beneficial use. UV light treats various inflammatory skin conditions, and blue light phototherapy is the standard of care for neonatal jaundice. Although quantitative measurements of exposure in these contexts are important, current systems have limited applicability outside of laboratories because of an unfavorable set of factors in bulk, weight, cost, and accuracy. We present optical metrology approaches, optoelectronic designs, and wireless modes of operation that serve as the basis for miniature, low-cost, and battery-free devices for precise dosimetry at multiple wavelengths. These platforms use a system on a chip with near-field communication functionality, a radio frequency antenna, photodiodes, supercapacitors, and a transistor to exploit a continuous accumulation mechanism for measurement. Experimental and computational studies of the individual components, the collective systems, and the performance parameters highlight the operating principles and design considerations. Evaluations on human participants monitored solar UV exposure during outdoor activities, captured instantaneous and cumulative exposure during blue light phototherapy in neonatal intensive care units, and tracked light illumination for seasonal affective disorder phototherapy. Versatile applications of this dosimetry platform provide means for consumers and medical providers to modulate light exposure across the electromagnetic spectrum in a way that can both reduce risks in the context of excessive exposure and optimize benefits in the context of phototherapy.

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A hybrid PDMS-Parylene subdural multi-electrode array

Ochoa

Wei

Wolley

et al. 2013

Biomed Microdevices

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In this paper, we report on a cost effective and simple method for fabricating a flexible multi-electrode array for subdural neural recording. The electrode was fabricated using a PDMS-Parylene bilayer to combine the major advantages of both materials. Mechanical and electrical characterizations were performed to confirm functionality of a 16-site electrode array under various flexed/bent conditions. The electrode array was helically wound around a 3 mm diameter cylindrical tube and laid over a 2 cm diameter sphere while maintaining its recording capability. Experimental results showed impedance values between 300 kΩ and 600 kΩ at 1 kHz for 90 μm diameter gold recording sites. Acoustically evoked neural activity was successfully recorded from rat auditory cortex, confirming in vivo functionality.

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Ferrofluid-Impregnated Paper Actuators

Ding

Wei

Chitnis

et al. 2011

J. Microelectromech. Syst.

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In this paper, we report on an inexpensive method of fabricating miniature magnetic actuators using ferrofluidimpregnated paper. Different types of papers (including soft tissue paper, cleanroom paper, Whatman-1 filter paper, printer paper, and newspaper) were loaded with oil-based ferrofluid, micromachined by a CO 2 laser and coated with a thin layer of parylene-C. The soaking capability of the different papers was investigated, with the soft tissue paper having the highest loading capacity, being able to absorb ferrofluid by as much as six times its original weight. Cantilever actuators fabricated from cleanroom and filter papers were able to generate the largest force (> 40-mg equivalent force), whereas the soft-tissue-paper cantilevers provided the greatest deflection (40 • tip angle).[2010-0081]

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A conformal sensor for wireless sweat level monitoring

Wei

Morey

Dyson

et al. 2013

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A Biaxial Stretchable Interconnect With Liquid-Alloy-Covered Joints on Elastomeric Substrate

Kim

Maleki

Wei

et al. 2009

J. Microelectromech. Syst.

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Abstract-This paper reports a biaxial stretchable interconnect on an elastomeric substrate. To increase the stretchability of interconnects, a 2-D diamond-shaped geometry of gold on a polydimethylsiloxane substrate was adopted in which the potentially breakable points were covered with room temperature liquid alloy. Finite element model simulations were performed to identify the most vulnerable points subjected to stress concentration and optimize the design process. Simulations also indicated an optimum gold thickness and linewidth that result in a minimum stress when the substrate is stretched. Four different geometries were designed, fabricated, and characterized. These included: 1) 2-D diamond-shaped gold lines connected at circular junctions with an intersection angle of 90• ; 2) 2-D diamond-shaped gold lines connected at circular junctions with intersection angles of 120• and 60 • ; 3) 2-D diamond-shaped gold lines separated at circular junctions with an intersection angle of 90• ; and 4) 2-D diamond-shaped gold lines separated at circular junctions with intersection angles of 120• and 60 • . A maximum stretchability (ΔL/L) of ∼60% was achieved for the design in which the lines and circles were separated and had intersection angles of 120• and 60• . A resistance variation of (ΔR/R) ∼30% was measured for this configuration.[ 2008-0248]Index Terms-Polydimethylsiloxane (PDMS), room temperature liquid alloy, smart garment, stretchable interconnect, wearable electronics.

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Self-Folding Smart 3D Microstructures Using a Hydrogel-Parylene Bilayer

Ding

Wei

Ziaie

2010

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Stretchable microelectrode array using room-temperature liquid alloy interconnects

Wei

Taylor

Ding

et al. 2011

J. Micromech. Microeng.

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In this paper, we present a stretchable microelectrode array for studying cell behavior under mechanical strain. The electrode array consists of gold-plated nail-head pins (250 μm tip diameter) or tungsten micro-wires (25.4 μm in diameter) inserted into a polydimethylsiloxane (PDMS) platform (25.4 × 25.4 mm 2). Stretchable interconnects to the outside were provided by fusible indium-alloy-filled microchannels. The alloy is liquid at room temperature, thus providing the necessary stretchability and electrical conductivity. The electrode platform can withstand strains of up to 40% and repeated (100 times) strains of up to 35% did not cause any failure in the electrodes or the PDMS substrate. We confirmed biocompatibility of short-term culture, and using the gold pin device, we demonstrated electric field pacing of adult murine heart cells. Further, using the tungsten microelectrode device, we successfully measured depolarizations of differentiated murine heart cells from embryoid body clusters.

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Pinghung Wei

Epidermal Electronics with Advanced Capabilities in Near-Field Communication

Wireless, battery-free, flexible, miniaturized dosimeters monitor exposure to solar radiation and to light for phototherapy

A hybrid PDMS-Parylene subdural multi-electrode array

Ferrofluid-Impregnated Paper Actuators

A conformal sensor for wireless sweat level monitoring

A Biaxial Stretchable Interconnect With Liquid-Alloy-Covered Joints on Elastomeric Substrate

Self-Folding Smart 3D Microstructures Using a Hydrogel-Parylene Bilayer

Stretchable microelectrode array using room-temperature liquid alloy interconnects

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