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Permanent fluidic magnets for liquid bioelectronics
Brownian motion allows microscopically dispersed nanoparticles to be stable in ferrofluids, as well as causes magnetization relaxation and prohibits...
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Wearable bioelectronics fabricated in situ on skins
In recent years, wearable bioelectronics has rapidly expanded for diagnosing, monitoring, and treating various pathological conditions from the skin...
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Nanomaterial-based biohybrid hydrogel in bioelectronics
Despite the broadly applicable potential in the bioelectronics, organic/inorganic material-based bioelectronics have some limitations such as hard...
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Bio-based Materials in Bioelectronics
The utilitarian convergence of electronics and biology has resulted in an exciting field known as Bioelectronics. However, this field mainly focuses...
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Hydrogels and conductive hydrogels for implantable bioelectronics
Hydrogels are a class of soft materials, which display unique biomimetic properties to biological tissues. Their mechanical properties, high water...
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Phase-separated porous nanocomposite with ultralow percolation threshold for wireless bioelectronics
Realizing the full potential of stretchable bioelectronics in wearables, biomedical implants and soft robotics necessitates conductive elastic...
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Intelligent structured nanocomposite adhesive for bioelectronics and soft robots
The remarkable functionality of biological systems in detecting and adapting to various environmental conditions has inspired the design of the...
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Hybrid materials approaches for bioelectronics
Bioelectronic systems are emerging technologies with unique capabilities for establishing bidirectional biophysical and biochemical interfaces to...
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Integrated internal ion-gated organic electrochemical transistors for stand-alone conformable bioelectronics
Organic electronics can be biocompatible and conformable, enhancing the ability to interface with tissue. However, the limitations of speed and...
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Advanced Polymers and Composites for Actuators in Robotics and Bioelectronics: Materials and Technologies
Actuators represent a key technology that allows converting electrical, magnetic, or chemical stimuli into mechanical motions/deformations and they...
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Giant magnetoelastic effect in soft systems for bioelectronics
The magnetoelastic effect—the variation of the magnetic properties of a material under mechanical stress—is usually observed in rigid alloys, whose...
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A snapshot review on materials enabled multimodal bioelectronics for neurological and cardiac research
Seamless integration of the body and electronics toward the understanding, quantification, and control of disease states remains one of the grand...
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Surface-Confined Biomolecules for Application in Bioelectronics
Within biological cells, enzymes participate in a complex network of selective and specific chemical reactions. These biocatalytic transformations...
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Intelligent upper-limb exoskeleton integrated with soft bioelectronics and deep learning for intention-driven augmentation
The age and stroke-associated decline in musculoskeletal strength degrades the ability to perform daily human tasks using the upper extremities....
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Laser-induced graphene for bioelectronics and soft actuators
Laser-assisted process can enable facile, mask-free, large-area, inexpensive, customizable, and miniaturized patterning of laser-induced porous...
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Highly conductive, stretchable, durable, skin-conformal dry electrodes based on thermoplastic elastomer-embedded 3D porous graphene for multifunctional wearable bioelectronics
Long-term bioelectric potential recording requires highly reliable wearable dry electrodes. Laser-induced graphene (LIG) dry electrodes on polyimide...
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Advances in emergent biological recognition elements and bioelectronics for diagnosing COVID-19
Coronaviruses pose a serious threat to public health. Tremendous efforts are dedicated to advance reliable and effective detection of coronaviruses....
