Meso scale component manufacturing: a comparative analysis of non-lithography and lithography-based processes

Abstract: The paper identifies the meso scale (10 µm to few millimeters) component size that can be manufactured by using both lithography and non-lithography based approaches. Non-lithography based meso/micro manufacturing is gaining popularity to make micro 3D artifacts with various engineering materials. Being in the nascent stage, this technology looks promising for future micro manufacturing trends. Currently, lithography based micro manufacturing techniques are mature, and used for mass production of 2D, 2.5D feat… Show more

“…Fabrication of engineering components at micro/nanoscale is one of the huge challenges in the high-tech industries [1][2][3]. To overcome this issue, nanoimprinting lithography (NIL) has been proposed as a novel technique in which the fabricated patterns and components are the potential candidates for application in optical devices, micro-integration systems, nanomold production, and biological devices [4,5].…”

Mechanism of Imprinting Process in the Ni-P Metallic Glass Films: A Molecular Dynamics Study

“…Fabrication of engineering components at micro/nanoscale is one of the huge challenges in the high-tech industries [1][2][3]. To overcome this issue, nanoimprinting lithography (NIL) has been proposed as a novel technique in which the fabricated patterns and components are the potential candidates for application in optical devices, micro-integration systems, nanomold production, and biological devices [4,5].…”

Mechanism of Imprinting Process in the Ni-P Metallic Glass Films: A Molecular Dynamics Study

“…This interdisciplinary field emerged rapidly as a combined output of several areas such as engineering, microtechnology, chemistry, physics, biotechnology, and materials science. Meso-and microfluidics platforms develop miniaturized analytical models for a wide variety of applications [1][2][3]. The advantages of such miniaturized devices include decreased consumption of samples and reagents, reduced duration of the experiments, low cost, disposability, and reduction or elimination of cross contamination.…”

Manufacturing of Meso-Fluidic Devices for Life Science Application Using Biocompatible MJF Process

Advancements of nanotechnological strategies as conventional approach for heavy metal removal from industrial wastewater: Start-of-the-art review