Programmable self-assembled nanostructures
Scientists demonstrate a strategy for tailoring dendritic polymers.
Jan 3rd, 2019
Read moreScientists demonstrate a strategy for tailoring dendritic polymers.
Jan 3rd, 2019
Read moreResearchers created a new type of microelectromechanical system - more commonly known as a MEMS switch - that uses electrostatic levitation to provide a more robust system.
Jan 3rd, 2019
Read moreComputer program can translate a free-form 2-D drawing into a DNA nanoscale structure.
Jan 3rd, 2019
Read moreA more comfortable and reliable blood-sugar monitoring system is being designed by researchers for people with diabetes.
Jan 3rd, 2019
Read moreExposure to chemical and biological attacks more rapidly determined.
Jan 3rd, 2019
Read moreNanocubes with hollow interiors and surface openings whose shape, size, and location are precisely controlled could be used to load and unload materials for biomedical, catalysis, and optical sensing applications.
Jan 3rd, 2019
Read moreA crucial step has been achieved in understanding quantum optical behavior of semiconductor nanomaterials.
Jan 2nd, 2019
Read moreScientists discover that it is possible to predict what type of material an unidentified element will be in bulk quantities solely based on the properties it exhibits over a limited range of the subnano to nano size r�gime.
Jan 2nd, 2019
Read moreNew research reveals a more sophisticated method for delivering light to control neurons in the brain -- which could ultimately mean turning off pain receptors or reducing the effects of severe neurological disorders.
Jan 2nd, 2019
Read moreDevice that works in rats has potential to replace electronic stimulators, drugs for pain, incontinence.
Jan 2nd, 2019
Read moreChemical engineering researchers develop self-powered microfluidic sheet that wraps, flaps and creeps.
Jan 2nd, 2019
Read moreBy studying the behavior of a deck of cards, and stacks of other materials, like steel and aluminum, scientists are proving the existence of a buckling phenomenon that happens inside layered materials when they are put under pressure. The discovery could shape the way researchers study the way things deform under pressure.
Jan 2nd, 2019
Read moreA quantum algorithm for tracking complex chemical reactions with neither performing demanding post-Hartree-Fock calculations nor exponential time explosion.
Jan 2nd, 2019
Read moreResearchers have developed a graphene-based implant able to record electrical activity in the brain at extremely low frequencies and over large areas, unlocking the wealth of information found below 0.1 Hz. The groundbreaking technology promises to enhance our understanding of the brain and pave the way for the next generation of brain-computer interfaces.
Jan 2nd, 2019
Read moreThe novel property may enable acoustic and ultrasound devices that are more resilient to noise, disorder and fabrication imperfections.
Jan 1st, 2019
Read moreFirst measurement of its kind could provide stepping stone to practical quantum computing.
Jan 1st, 2019
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