Chemists at the U.S. Department of Energy's Brookhaven National Laboratory have developed a new machine-learning (ML) framework that can zero in on which steps of a multistep chemical conversion should be tweaked to improve productivity.
Writing in Sustainability, a team of researchers has investigated the recovery of ammonium and phosphate from biogas slurry, taking a multivariate statistical approach to the research question.
By Reginald Davey
11 May 2022
Scientists from the Lawrence Livermore National Laboratory in California have developed catalytic electrodes using direct-ink writing, a 3D printing technology.
By Reginald Davey
11 May 2022
In an article recently published in the journal ACS Energy Letters, researchers discussed the development of fast-switching electrochromic devices driven by a potential gradient.
By Surbhi Jain
11 May 2022
Trace-A-Matic Corp. announces Dan Schneider as their newly appointed Vice President of Sales. Dan is a sales veteran with a successful career built on product knowledge, customer satisfaction, and delivering on his word.
Tissue engineering (TE) is the process of creating tissue by combining appropriate cell and material combinations on particular scaffolds. Most normal tissue-derived cells, on the other hand, are anchorage-dependent and stay in extracellular matrices (ECMs).
Electrochemical cells that emit light can be used to develop a low-cost, simple lighting technology. When a low voltage is applied to these thin-film electronic and ionic devices, they emit light. Using extensive data analysis, scientists at the Technical University of Munich (TUM) along with the University of Turin have developed first-class electrochemical cells from copper complexes that produce blue and white light.
A group of energy researchers headed by the University of Minnesota Twin Cities has developed a game-changing device that electronically transforms one metal into behaving like another, allowing it to be used as a catalyst to accelerate chemical reactions.
A team of researchers from Saudi Arabia and China have reported the development of a novel neural-network inspired solid polymer electrolyte with enhanced Li-ion conductivity.
By Reginald Davey
10 May 2022
In an article recently published in the journal ACS Energy Letters, researchers discussed the CO2 Electrolyzer Intermittent Operation at industrially relevant current densities.
By Surbhi Jain
10 May 2022
In an article recently published in the journal Additive Manufacturing, researchers discussed the utility of toolpath-based design for the development of carbon-efficient architectural structures by using 3D concrete printing.
By Surbhi Jain
10 May 2022
In a world of materials that normally expand upon heating, one that shrinks along one 3D axis while expanding along another stands out. That's especially true when the unusual shrinkage is linked to a property important for thermoelectric devices, which convert heat to electricity or electricity to heat.
Researchers at the Department of Energy's Oak Ridge National Laboratory are teaching microscopes to drive discoveries with an intuitive algorithm, developed at the lab's Center for Nanophase Materials Sciences, that could guide breakthroughs in new materials for energy technologies, sensing and computing.
Imagine a computer that can think as fast as the human brain while using very little energy. That's the goal of scientists seeking to discover or develop materials that can send and process signals as easily as the brain's neurons and synapses.
Every day, researchers around the world develop new technologies to usher in a carbon-free energy future.