Phys.org October 7, 2024 Hierarchical assemblies of ferroelectric nanodomains can exhibit exotic morphologies that lead to distinct behaviours. Controlling these super-domains reliably is critical for realizing states with desired functional properties. A team of researchers in the US (Oak Ridge National Laboratory, University of Texas at Arlington, UC Berkeley, Lawrence Berkeley National Laboratory, Rice University) described the super-switching mechanism by using a biased atomic force microscopy tip of a model ferroelectric Pb0.6Sr0.4TiO3. They demonstrated that the writing process was dominated by a super-domain nucleation and stabilization process. A complex scanning-probe trajectory enabled on-demand formation of intricate centre-divergent, centre-convergent and flux-closure […]
Tag Archives: Neuromorphic circuits
New DNA-based chip can be programmed to solve complex math problems
Science Daily September 14, 2021 The reactions in DNA-based combinational logic computing are mostly achieved through a manual process. For DNA-based Boolean logic, researchers in South Korea have fabricated a DNA-based microfluidic processing unit (MPU). They cast polydimethylsiloxane using double-sided molding techniques for alignment between the microfluidics and valve switch. For a uniform surface, molds fabricated using a three-dimensional printer were spin-coated by a polymer. For programming control, the valve switch arms were operated by servo motors. In the MPU controlled via a personal computer or smartphone application, the molecules with two input DNAs and a logic template DNA were […]