In the pursuit of miniaturization, researchers from the Center for Integrated Nanostructure Physics of the Institute for Basic Science (IBS), in South Korea, have partnered with researchers at the University of Birmingham and at the Korea Advanced Institute of Science and Technology (KAIST) to create flat lenses with the thickness of a credit card and with adjustable features.
Distinctive and attractive characteristics of carbon nanotubes such as high electrical conductivity, exceptionally lighter weight, and greater stability than steel will be suitable for a number of applications such as high-performance plastics, ultra-lightweight batteries, and medical implants.
Scientists have achieved the successful integration of stretchable, washable, and breathable electronic circuits into fabric. This achievement paves the way for innovative probabilities in the fields of wearable electronics and smart textiles.
One of the major inconveniences of modern display screens experienced while using a computer underneath overhead lighting or adjacent to a window, watching television in complete darkness, or taking a photo outdoors on a sunny day using a smartphone is the phenomenon called glare.
Researchers at the University of Twente’s research institute MESA+ are constructing molecular machines capable of exerting a measurable force at nanoscale and in fluid environment.
MIPT scientists have performed ultra-precise evaluations of the optical constants of extremely thin gold films with thicknesses of 20-200 billionths of a meter in the optical range of the electromagnetic spectrum.
Researchers at the Rice University have used individual nanoscale nuggets of aluminum, copper, gold, silver, and similar metals—with the ability to tap energy of light and use it for various applications—and have found an innovative technique for developing multifunctional nanoscale structures.
Researchers at the Center for Functional Nanomaterials (CFN) have been successful in carving structures at the single molecule level by using an ultra-modern electron microscope. The method enables achieving an unparalleled resolution of 1 nm.
In arctic conditions, soldiering is extremely hard. Protective clothing can be heavy and can result in overheating and sweating upon exertion. In spite of wearing such gear, hands and feet can grow numb.
Consider wearing a skirt, shirt or jacket that can power personal electronic devices such as fitness tracker, mobile phone and the like while walking, waving or just sitting down.
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