StenTech® Inc., the leading multinational SMT Printing Solutions company, is excited to announce its participation in the SMTA Michigan and SMTA Ohio Expos.
Separation processes are essential in the purification and concentration of a target molecule during water purification, removal of pollutants, and heat pumping, accounting for 10–15% of global energy consumption.
Platinum (Pt) can act as a catalyst to make reactive oxygen ions for many applications. In this research, scientists used a method called electrochemical cycling to modify the surface of Nickel (Ni)/Pt nanoparticles.
Scientists at the Texas A&M University Health Science Center (Texas A&M Health) have discovered that a nano-sized carbon material derived from the oxidation of carbon-rich sources could be used to treat Down syndrome and other disorders associated with high levels of hydrogen sulfide.
Microscopic materials made of clay designed by researchers at the University of Missouri could be key to the future of synthetic materials chemistry.
Clay-based microscopic materials developed by University of Missouri researchers may hold the key to the future of synthetic materials chemistry.
Many diseases can be successfully treated in the simple environment of a cell culture dish, but to successfully treat real people, the drug agent has to take a journey through the infinitely more complex environment within our bodies and arrive, intact, inside the affected cells.
The breakthrough that football players were unintentionally gaining permanent brain damage as they racked up head hits all through their professional careers made a rush to develop better head protection
Using a combination of high-powered X-rays, phase-retrieval algorithms and machine learning, Cornell researchers revealed the intricate nanotextures in thin-film materials, offering scientists a new, streamlined approach to analyzing potential candidates for quantum computing and microelectronics, among other applications.
Case Western Reserve University electrochemical engineer Rohan Akolkar-whose pioneering research has applications in nano-material fabrication, energy storage, electrometallurgy and sensors-has been selected as the 2023 winner of an international award from The Electrochemical Society (ECS).