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We report on experimental demonstration of single- and few-layer chemical vapor deposited (CVD) molybdenum disulfide (MoS2) nanomechanical resonators by employing a scalable transfer-print method. CVD MoS2 crystals are released from their growth substrates (with well-preserved, uniform crystal quality) by a water-assisted lift-off technique, and suspended over pre-patterned arrays of microtrenches...
Using pure electric voltages instead of magnetic fields or large currents to manipulate magnetisms in multiferroic heterostructures is a goal for future low-power spintronics such as electric-writing magnetic-reading memories. Usually, the electric manipulation to magnetism shows a volatile effect which cannot be used for information storage,[1] because the magnetic variation vanishes after the electric...
In the paper, we have demonstrated a simple but effective method to inkjet print fine Ag conductive lines with improved resolution on polymeric films. This is achieved by forming an ultra-flat polymeric film and modifying its surface energy. As a result, narrow Ag lines (< 50 µm) and short gaps (∼10 µm) were successfully achieved using optimized printing parameters. Meanwhile these formed Ag lines...
Silicon carbide (SiC) is a leading material for both semiconductor devices and harsh environment micro- and nano-electromechanical systems (MEMS/NEMS) due to a combination of exceptional electrical, mechanical and chemical properties. SiC is also an excellent structural material for micromechanical transducers because of its high Young's modulus and mechanical strength. Suspended thin film diaphragms...
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