Mechanical detecting is a key usefulness in delicate gadgets planned for applications in wellbeing checking, human–machine cooperations and delicate apply autonomy. Current techniques commonly utilize mind boggling systems of sensors explicit to one kind of misshapening and one point in space, which constrains their detecting capacities. An elective way to deal with appropriated detecting is electrical reflectometry, yet it is trying to assemble the vital transmission lines out of delicate materials. Here, we report the adaptable manufacture of microstructured elastomeric strands that incorporate many fluid metal channels and have the length and cross-sectional honesty important to effectively apply time-area reflectometry. Our delicate transmission lines permit the location of the mode, greatness and position of numerous synchronous squeezing and extending occasions. Moreover, because of the progressively responsive conductors, the weight affectability is improved by a factor of 200 contrasted with unbending line tests. By coordinating a solitary delicate transmission line with a solitary interface port into a bigger texture, our procedure can be utilized to make an electronic material that can interpret tangled mechanical stimulation.Carbon nanotube field-impact transistors (CNFETs) are a promising nanotechnology for the improvement of vitality effective registering. Regardless of fast advancement, CNFETs have just been manufactured in scholarly or examine research facilities. A basic test in moving this innovation to business producing offices is building up an appropriate strategy for storing nanotubes consistently over industry-standard huge territory substrates. Such a testimony technique should be manufacturable, good with the present silicon-based innovations, and furnish a way to accomplishing frameworks with vitality effectiveness benefits over silicon. Here, we show that a statement strategy wherein the substrate is lowered inside a nanotube arrangement can address these difficulties and can permit CNFETs to be created inside modern offices. By clarifying the components driving nanotube testimony, we create process alterations to standard arrangement based strategies that altogether improve throughput, quickening the affidavit procedure by in excess of multiple times, while all the while lessening cost. This permits us to create CNFETs in a business silicon producing office and high-volume semiconductor foundry. We exhibit uniform and reproducible CNFET manufacture across industry-standard 200 mm wafers, utilizing a similar gear right now being utilized to create silicon item wafers.