Functional Destruction Utilizing Sustainable Materials Physical Transiency For Electronics Appl

юааfunctionalюаб юааdestructionюаб юааutilizingюаб юааsustainableюаб юааmaterialsюабтащ юааphysicalю Our methods include inkjet printing conductive traces on water soluble pva sheets, laser transferring edible gold foil onto 3d printed chocolates, and fabricating electronic devices using natural beeswax. we demonstrate applications of these methods which take advantage of each material’s physical transiency for functional goals. We demonstrate applications of these methods which take advantage of each material's physical transiency for functional goals. for example, water soluble electronics that can be used for water leakage sensing, edible chocolate electronics which destroy data contained in a circuit through digestion, and beeswax based temperature sensors which.

юааfunctionalюаб юааdestructionюаб юааutilizingюаб юааsustainableюаб юааmaterialsюабтащ юааphysicalю Request pdf | on apr 19, 2023, tingyu cheng and others published functional destruction: utilizing sustainable materials’ physical transiency for electronics applications | find, read and cite. Doi: 10.1145 3544548.3580811 corpus id: 258218286; functional destruction: utilizing sustainable materials’ physical transiency for electronics applications @article{cheng2023functionaldu, title={functional destruction: utilizing sustainable materials’ physical transiency for electronics applications}, author={tingyu cheng and taylor tabb and jung wook park and eric m gallo and aditi. Functional destruction: utilizing sustainable materials’ physical transiency for electronics applications. tingyu cheng, taylor tabb, jung wook park, eric m gallo, aditi maheshwari, gregory d. abowd, andreea danielescu et al. proc. acm chi 2023. (best paper honorable mention, 2023 core 77 design award sustainability category winner). Functional destruction: utilizing sustainable materials’ physical transiency for electronics applications.

юааfunctionalюаб юааdestructionюаб юааutilizingюаб юааsustainableюаб юааmaterialsюабтащ юааphysicalю Functional destruction: utilizing sustainable materials’ physical transiency for electronics applications. tingyu cheng, taylor tabb, jung wook park, eric m gallo, aditi maheshwari, gregory d. abowd, andreea danielescu et al. proc. acm chi 2023. (best paper honorable mention, 2023 core 77 design award sustainability category winner). Functional destruction: utilizing sustainable materials’ physical transiency for electronics applications. Today's electronics are manufactured to provide stable functionality and fixed physical forms optimized for reliable operation over long periods and repeated use. however, even when applications don't call for such robustness, the permanency of these electronics comes with environmental consequences. Functional destruction: utilizing sustainable materials’ physical transiency for electronics applications t cheng, t tabb, jw park, em gallo, a maheshwari, gd abowd, h oh, proceedings of the 2023 chi conference on human factors in computing systems … , 2023.

юааfunctionalюаб юааdestructionюаб юааutilizingюаб юааsustainableюаб юааmaterialsюабтащ юааphysicalю Today's electronics are manufactured to provide stable functionality and fixed physical forms optimized for reliable operation over long periods and repeated use. however, even when applications don't call for such robustness, the permanency of these electronics comes with environmental consequences. Functional destruction: utilizing sustainable materials’ physical transiency for electronics applications t cheng, t tabb, jw park, em gallo, a maheshwari, gd abowd, h oh, proceedings of the 2023 chi conference on human factors in computing systems … , 2023.

юааfunctionalюаб юааdestructionюаб юааutilizingюаб юааsustainableюаб юааmaterialsюабтащ юааphysicalю