Researchers created a new way to sneak nanodiamonds into cells without causing damage or provoking the cell to attack them. Their new technique will help scientists study the properties of living cells at the molecular level, but it could also become a versatile new tool to help us understand more about cellular diseases like cancer and Alzheimer's.
Tuesday, March 23, 2021
We've smuggled tiny diamonds into cells, where they could shine light on the development of cancer
Researchers created a new way to sneak nanodiamonds into cells without causing damage or provoking the cell to attack them. Their new technique will help scientists study the properties of living cells at the molecular level, but it could also become a versatile new tool to help us understand more about cellular diseases like cancer and Alzheimer's.
Making molecular movies of a biological process of energy conversion
In a recent experiment, an international team of scientists sought answers using an advanced imaging technique called time-resolved serial femtosecond crystallography to watch a pigment found in some marine bacteria as it was exposed to sunlight outside the cell.
Electrode interphase formation
Anions and solvents direct nucleation and growth of the solid electrolyte interphase.
Electronic nose sniffs out free radicals
Scientists work on nanosensors to detect atmospheric pollutants.
Demonstration of unconventional transverse thermoelectric generation
Composite of thermoelectric and magnetic materials with high thermopower may open up a new way to wide-ranging energy applications.
X-ray laser rips atomic bonds apart in a flash.
Subscribe to:
Posts (Atom)