The materials used to power electronics must also get thinner as they get smaller and smaller. In light of this, finding materials that can keep unique electrical properties at an ultrathin size is one of the fundamental difficulties researchers confront when creating the next generation of energy-efficient devices.
Keeping the electricity grid up and running through summer heat waves and winter deep freezes is an ongoing balancing act. Power lines that stretch for miles are vulnerable to wind and fire.
In an article recently published in the open-access journal Scientific Reports, researchers discussed the development of laboratory tools that could measure bulk materials under difficult circumstances through 3D printing.
By Surbhi Jain
20 Oct 2022
A new paper in the Journal of Colloid and Interface Science has explored the creation of hydrogen-bonded clusters in hydrogels and the influence of network structure on the relationships between their structure and prope...
By Reginald Davey
20 Oct 2022
A paper recently published in the journal Energies demonstrated the feasibility of using double cathode modification layers to fabricate organic solar cells (OSCs) with high stability and efficiency.
By Samudrapom Dam
20 Oct 2022
In an effort to better comprehend the disease that is one of the major causes of mortality worldwide, researchers at Penn State successfully 3D bioprinted breast cancerous tumors and treated them.
Researchers from the Van ’t Hoff Institute for Molecular Sciences of the University of Amsterdam offer a method that enables the transition of photocatalysis from the laboratory to the industry in a paper published in Nature Communications.
Alcohols are used to remove impurities on the surface of semiconductors or electronics during the manufacturing process, and wastewater containing alcohols is treated using reverse osmosis, ozone, and biological decomposition.
Scientists can convert carbon dioxide, a greenhouse gas, into higher value multicarbon products, seen as intermediates for potential fuels. In this research, scientists examined a new approach to this conversion process. The approach uses a material called a tandem catalyst-;an electrode with two catalytic regions.
Scientists have long been fascinated with the origin of life on Earth, namely the transition from simple pre-biotic organic molecules to living cell systems.
Metso Outotec is introducing yet another innovative plant concept, Flotation Plant Units, to its unique minerals processing portfolio.
Scientists from France’s Institut de Recherche de Chimie Paris have reviewed the current state-of-the-art of glow discharge optical emission spectroscopy, an emerging technique in the field of PSC research. Their research has been published in the journal Small Methods.
By Reginald Davey
19 Oct 2022
In a paper recently published in the journal Advanced Intelligent Systems, researchers developed a quality assurance (QA) system to demonstrate a You-Only-Look-Once architecture (YOLO architecture) to identify visually detectable defects on electrode sheets.
By Chinmay Chari
19 Oct 2022
Photodetectors are useful because they convert photons into electrical signals. However, certain shortcomings in terms of wide-angle imaging for spherical-shaped photo sensors have been reported. The study published in the journal Nature Communications discusses a novel 2D quasi-perovskite hemispherical photonic sensor optimized for wide-angle imagery.
By Ibtisam Abbasi
19 Oct 2022
NASA has hired commercial software company AnalySwift LLC for the second time in a year to provide a design tool for adaptable composites and hybrid system materials.