Thus, the flexible and washable self-powered biosensors have great potential for diabetes diagnosis at an early stage by sensing glucose in sweat.Hui, YuchenXi’an Key Laboratory of Textile Chemical Engineering Auxiliaries, School of Environmental and Chemical Engineering, Xi’an Polytechnic University...
Next-generation biomedical devices1–9 will need to be self-powered and conformable to human skin or other tissue. Such devices would enable the accurate and continuous detection of physiological signals without the need for an external power supply or b
Wearable biosensors serve as an ideal platform for real-time and continuous health monitoring, which exhibit unique properties such as self-powered, lightweight, low cost, high flexibility, detection convenience, and great conformability. This review introduces the recent research progress in wearable ...
In addition, the TENG device can work as a self-powered pedometer for walking and a gait analysis sensor for health evaluation (Fig. 5e, f). The good performance of the devices benefited from the surface morphology of the starch film, which may open a window for the low cost and ...
Liquid metal has become a great candidate for constructing flexible biosensors because of its high conductivity, deformability, self-healing, and bio-friendly properties, its spontaneous formation of an oxide film due to exposure to oxygen provides a convenient reaction platform for the preparation of ...
112which can self-climb onto the peripheral nerve from a two-dimension state with the aid of the shape memory effect. More importantly, the 3D twining electrode can form a flexible and conformal neural interface, which can reduce the inflammation of the nerve tissue without compromising the ...
In this work, lab-made sensors have been manufactured through a benchtop approach, nano-structured with 0D carbon NMs produced in water, and used as transducers to give rise to FDH-based third-generation biosensors. The StPE fabrication strategy has been rationally designed to host the FDH and...
Printed sensors are relatively self-explanatory - they are sensors that are printed using solution processable functional inks onto rigid or flexible substrates. Printed sensors can therefore be produced in large areas and volumes, using established manufacturing techniques at significantly reduced costs. ...
Fig. 3: Testing of the self-powered integrated devices. Full size image Remote monitoring and flexible integrated device Fig. 4: Remote monitoring and flexible integrated device. Full size image To evaluate the application prospects of our multiplex sensors in ocular monitoring, tears were collected...
Microfluidic contact lenses for unpowered, continuous and non-invasive intraocular pressure monitoring. Sens. Actuators A Phys. 295, 177–187 (2019). Article Google Scholar Araci, I. E., Su, B., Quake, S. R. & Mandel, Y. An implantable microfluidic device for self-monitoring of ...