For being less invasive, able to monitor a wide range of biomarkers, nontoxic and nutritional, edible, and nutritive electronics have attracted more and more attention. Temperature‐controlled double‐proof data encryption is also demonstrated. In addition, the device can also degrade in deionized water within 90 min. The thin‐film transistors with multiple ion‐selective membranes (ISMs) are integrated into a flexible microfluidics system, enabling continuous measurements of electrolytes in body fluids. A general microfluidic approach for preparing phase‐change material‐infilled microcapsules with bistable thermal and mechanical properties is presented. By performing a single sliding motion on the TENG, the 3D‐printed fuse would break, causing a large change in resistance. This real‐scale 3D‐printed biohybrid microfluidic device can mimic the glioblastoma microenvironment at level of the blood–brain barrier. Seeing is believing! The relative sensitivity is higher than 1% K−1 in a wide higher‐temperature range of 66–225 °C, with the maximum reaching 2.14% K−1 at 168 °C. An empirical model for the deposition process is developed, relating process and material parameters to film thickness. Metal halide perovskites (MHPs) possess unique optical and optoelectronic properties. A low‐cost, non‐cleanroom manufacturing method and a new microfluidic chip design are introduced for monolithic integration of an in‐channel separation system with a digital microfluidic sample preparation platform. This novel fabrication method can enable rapid, reconfigurable manufacturing of custom photonic sensing arrays. Working off-campus? “Say it, do it, prove it” – is the motto of Advanced Materials Technologies LLC, Chandler, Ariz. It allows the triple co‐culture of endothelial cells, astrocytes, and magnetically‐driven spheroids of U87 glioblastoma cells. A multifunctional device is designed to detect the vortex based on the capability of a triboelectric nanogenerator (TENG). Biocompatible batteries are mounted on the lens to demonstrate the feasibility of a smart contact lens with a built‐in power source for electroosmotic self‐moisturization. Best of Advanced Materials Technologies 2019. A flexible micro‐thermoelectric generator (m‐TEG) with a trapezoidal‐shaped structure is presented. Advanced Materials Technologies is a top-quality journal for technology-related materials applications research with a focus on advanced device design, fabrication and integration, as well as new technologies based on novel materials. Magnetically actuated microlens and dexterous 3D microgripper are demonstrated for the first time. The I−/I3− redox couple has the functions of charge balancing and facilitates the charge transfer between polyoxometalates and counter electrode in the ECD. In this progress report, an overview of the patterning technologies performing on MHPs, the merits of patterned MHP‐based devices, as well as the outlook of future developments are discussed. Patterns are demonstrated with in‐plane dimensions below 40 µm, layer thicknesses less than 100 nm, and surface root mean square roughness below 20 nm. An electromagnetic pulse triboelectric nanogenerator (TENG) system, consisting of a high voltage TENG and DIW 3D‐Printed Electrical Fuse, is designed. Standard macroscale measurements of surface energy and surface tension are used in conjunction with microscale contact angle measurements to understand material behaviors at the microscale. The device with high‐resolution and high‐brightness demonstrates their great potential in QLEDs device manufacturing. Please check your email for instructions on resetting your password. Founded in 2005, Advanced Materials Technology (AMT) is an innovative Product Development and Manufacturing company located in Wilmington, Delaware (USA) and dedicated to researching and manufacturing high quality, enabling materials for scientists around the world supporting primarily market segments such as: pharmaceutical research, bio-pharma, medical research, and toxicology. Advanced Materials Technologies, LLC is a contributor to the gas turbine engine industry by servicing both the original equipment manufacturer (OEM) and the component repair market. Electrohydrodynamic jet printing is used to create patterned arrays of multimaterial photopolymer 1D photonic crystals.
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