https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6548954/
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6548954/pdf/ADVS-6-1900186.pdf
https://www.researchgate.net/publication/332128763_Second_Skin_Enabled_by_Advanced_Electronics
Don't forget - these lunatics "love" us all so absolutely "insanely" - that's the only reason they don't want to see us all as human beings anymore and only ever "help" us to stay “smart”, "healthy" and “bio” with their crazy ideas.... blah blah blah - and that all this "always" has a so great "safety" and is so "effective", we all already know.... yah yah yah
Ultralightweight design of a skin‐mountable sensor can make it imperceptible to users.34 Imperceptible tactile sensor has been developed using plastic electronics for electronic skin, prosthetics, and robotics (Figure (Figure3b).[qv:3b).[qv: 34a] To improve the quality of obtained signals is to minimize electrical cross‐talk. Thus, the tactile sensor was designed to interconnect with an active matrix array on an organic transistor. The tactile sensor was fabricated on ultrathin film (1 µm), was lightweight (3 g m−2) and ultraflexible, so it can be attached to skin or any dynamic surfaces. This system was then used with composite nanofibers of carbon nanotube and graphene in a transparent bending‐insensitive pressure sensor for medical applications.35
Secreted human sweat can convey useful bioinformation. Hence, diagnostics based on sweat can be an effective noninvasive monitoring method to provide insights into the health of a human.36 Despite its advantages, sweat diagnostics has been limited to laboratory or hospital settings.36 A skin‐mountable sweat sensor was demonstrated to expand the usability and convenience of sweat‐based diagnostics (Figure (Figure33c).37 The sweat sensor was fabricated with a stretchable microfluidic system and colorimetric sensor to capture, store, and analyze sweat. The sensor can measure quantitative values of sweat rate, total sweat loss, pH, and concentrations of chloride and lactate, and can send the information wirelessly using near field communication technology. Another type of skin‐mountable sensor composed of a flexible integrated sensing array was also developed for in situ sweat analysis.38 The fully integrated system of the sensor can simultaneously and selectively measure sweat metabolites and electrotypes, and even body temperature while wirelessly sending the collected information directly to the users.
Implantable sensors to derive high‐quality biosignals from internal organs such as brain, heart, and blood vessels, will be more beneficial than skin‐mounted sensors.39 A flexible multiplexed electrode array for electrocorticogram measurement (Figure (Figure3d)3d) uses a high‐density multiplexed sensor array to monitor microscale brain activities over large areas in vivo and theragnosis of disorders.40 Electronic stents in blood vessel have also been demonstrated as smart implants for in vivo health monitoring and treatment of endovascular diseases.41 Specifically, a bioresorbable electronic stent integrated with sensor, memory, wireless communication module, and drug delivery systems has been shown to demonstrate multifunctional capabilities in sensing flows, monitor temperature, store data, along with the ability to transmit wireless power or data.41 Furthermore, it also showed efficient hyperthermia therapy by using bioinert therapeutic nanoparticles in the endovascular system.
3.2. Integrated Circuits
Intrinsically stretchable electronic circuits are highly desirable for applications in skin‐mounted devices. An intrinsically stretchable active matrix array was recently achieved by developing a scalable fabrication of intrinsically stretchable transistors (Figure (Figure33e).42 This is important for high‐density device arrays for integrated circuits of functional electronics. The fabrication process involves developing photopatterning processes for dielectric, semiconductor. A high‐density transistor (347 transistors cm−2) array was realized. The stretchable transistor array was fabricated into analogue and digital circuits, and an active matrix for a tactile sensor array.
3D integrated stretchable electronics is a new direction to achieve high‐density devices which would have required a significant larger area with single‐layer formats. A framework for 3D integrated stretchable electronic circuit systems was demonstrated by transfer printing of predesigned stretchable circuits.43 The 3D integrated stretchable electronic system (Figure (Figure3f)3f) consisted of four electronic circuits. Each layer had individual functions, and each layer was connected using the vertical interconnect access process. The 3D integrated stretchable system was then used in stretchable, compact multichannel sensors to control a wireless robotic arm for human–machine interfaces.
And of course this has nothing whatsoever to do with the "Fourth Industrial Revolution" of crazy Schwab, or does it?
And then we'll come here - also in 2020…..
https://ieeexplore.ieee.org/ielx7/6287639/8948470/09145564.pdf
And everything that has happened since 2020 has NEVER had anything to do with "health" or a fictitious "virus" - THAT was all meticulously planned and deliberately brought about!!!! And anyone who is still babbling about a fictitious "virus", "variants", the absolute lie/fog grenade of "GoF", "contaminated plasma DNA" or "mRNA" is a liar, criminal and part of this diabolical plan - you should avoid such people like the plague!
And it hurts my heart that there are unfortunately still countless people in the world, who have no idea about it……💔💔💔
They want to test this crap on us in case there are 'significant' issues.
Otherwise it is just part of their desperate search for immortality.