In a paper recently published in the journal ACS Energy Letters, researchers reviewed and summarized molecular modeling and synthesis approaches used for advancements in the engineering of Y-series-based polymer acceptors to attain power conversion efficiencies (PCEs) over 18% in all-polymer solar cells (all-PSCs).
A novel material is being developed to enable quicker and better resolution displays. Scientists from Hokkaido University describe what makes this material so unique, paving the way for its application and further development.
Master Bond MasterSil 323AO-LO is a two component silicone elastomer with a self-priming feature, designed for bonding, sealing and gap filling applications.
A team of researchers recently published a paper in the journal Advanced Science that demonstrated the feasibility of using screen-printing multi-walled carbon nanotube (MWCNT)-based conductive ink dispersed by chitin nanocrystals (ChNCs) to fabricate wearable electronic products.
Discarded electronic devices, such as cell phones, are a rapidly increasing source of waste. One solution to the problem is employing components derived from renewable resources that are easily disposed of. Scientists have now built a prototype circuit board composed of sheet paper with completely integrated electrical components that can be burned or left to degrade.
A team of Cornell scientists is revealing the complete potential of aluminum nitride, a crucial material for the progress of electronics and photonics, through the creation of a surface cleaning approach that allows for high-quality production.
Scientists from the University of the West of England and the National University of Singapore have published a new paper in the journal Advanced Science reviewing recent advances in wearable electronic textiles.
A new paper in the journal Composites Science and Technology has explored the development of bio-based electrically conductive inks for use in additive manufacturing. The research has been carried out by a team from France and Italy.
In a paper recently published in the journal Applied Surface Science, researchers proposed a scalable and environmentally viable method to produce poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS) electrodes on conventional copy paper by implementing modifications on its surface.
Scientists from the University of Cambridge, Tesla, and the University of Strathclyde have investigated the application of blockchain technology to smart grids. Their research has appeared in the journal Energies.
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