Phys.org September 6, 2024 Nanocellulose from biomass is promising for manufacturing sustainable composite biomaterials and bioplastics. However, obtaining nanocellulose at pilot scale requires energy-intensive fibrillation to shear cellulose fibers apart into nano-dimensional forms in water. To reduce the energy consumption in fibrillation a team of researchers in the US (Oak Ridge National Laboratory, University of Maine) found that aqueous NaOH:urea (0.007:0.012 wt.%) reduced the fibrillation energy by ~21% on average relative to water alone. The NaOH and urea acted synergistically on CNFs to aid fibrillation but at different length scales. According to the researchers their work suggested a general mechanism […]
Tag Archives: Supercomputing
Key innovation in photonic components could transform supercomputing technology
Phys.org February 5, 2024 Researchers in South Korea demonstrated the array-level tunable couplers and phase shifters with capacitive electrostatic microelectromechanical actuators in a recirculating mesh network. The overall fabrication process was compatible with the conventional wafer-level passive silicon photonics platform. Extremely low unit-level standby power consumption of and reconfiguration energy with <11 V programming voltages offered well-balanced, scalable routes for efficient phase and amplitude modulation of the guided lightwaves with sub-decibel optical losses. The extinction ratios of the continuously tunable directional coupler exceed 30 dB. Full 2π-phase shifting could be achieved with a modulation efficiency of less than 0.075 V cm and a phase-dependent […]