Search results
Results from the WOW.Com Content Network
Mesomanufacturing processes are filling the gap between macro- and micromanufacturing processes and overlaps both of them (see picture). Other manufacturing technologies are nanoscale (< 100 nm), microscale (100 nm to 100 μm) and macroscale manufacturing (> 0.5 mm). [1]
In general, a meso-level analysis indicates a population size that falls between the micro and macro levels, such as a community or an organization. However, meso level may also refer to analyses that are specifically designed to reveal connections between micro and macro levels. It is sometimes referred to as mid range, especially in sociology ...
Nanomanufacturing refers to manufacturing processes of objects or material with dimensions between one and one hundred nanometers. [15] These processes results in nanotechnology, extremely small devices, structures, features, and systems that have applications in organic chemistry, molecular biology, aerospace engineering, physics, and beyond. [16]
Microscale models form a broad class of computational models that simulate fine-scale details, in contrast with macroscale models, which amalgamate details into select categories. [ 2 ] [ 3 ] Microscale and macroscale models can be used together to understand different aspects of the same problem.
Special Centre for Nano Sciences (Jawaharlal Nehru University) Centre for Nanoscience and Nanotechnology (Jamia Millia Islamia) Department of Nano Science and Technology (Tamil Nadu Agricultural University) Department of Nanotechnology (University of Kashmir) Parul University Micro-Nano Research & Development Center (Parul University)
NanoScale Corporation was recognized by the Kansas Technology Enterprise Corporation, as a SBIR Bridge Award Winner, [11] the National Science Foundation, [12] Popular Mechanics as a Breakthrough Award Winner, [13] was a winner of the Tibbetts Award, [14] by Kansas BioScience Organization, [15] was a winner of the Kansas Department of Commerce Merit Award, [16] and was a finalist for the ...
Electron microscopy images of nitrogen-containing ordered mesoporous carbon (N-OMC) taken (a) along and (b) perpendicular to the channel direction.
A macroscopic electronic device, when scaled down to a meso-size, starts revealing quantum mechanical properties. For example, at the macroscopic level the conductance of a wire increases continuously with its diameter. However, at the mesoscopic level, the wire's conductance is quantized: the increases occur in discrete, or individual, whole ...