a process of printing from a plate, etc. prepared by methods combining Photography and lithography ~GAMEMASTER~
Photolithography is a common strategy for laying down circuits in semiconductor manufacturing.
A photolithography is a picture that has been treated with a thing film called substrate. It takes a geometric pattern from a photo to light sensitive chemical called photoresist. This criteria for the photolithography is that the photoresist process must be completed to the original work of art.
photolithography is still most common.
Mario Portillo works for a company called HIGH'born Technology USA as a photolithography engineer. He attended school at California State University at Northridge.
Irene Harvey Sayre has written: 'Photography and platemaking for photo-lithography' -- subject(s): Photography, Metal plate processes, Lithography, Photolithography
Charles W. Latham has written: 'Photo composing' -- subject(s): Photolithography 'Lithographic offset press operating' -- subject(s): Lithography, Metal plate processes
If you salvaged it from broken electronics or stuff, you could sell it back from the company you stripped the electronic from (For Example DELL, Toshiba, Apple, and many more. Or if you just stripped some random mircochips, then i guess put it on the market, see if any companies/Stores who would like to buy them (Warning: They will buy it cheap) Hope This Helps
Lisa C. Martin has written: 'Advances in thin film thermocouple durability under high temperature and pressure testing conditions' -- subject(s): Thermocouples, Photolithography, Thin films, Durability
Victor Strauss has written: 'Point of purchase cardboard displays' -- subject(s): Display of merchandise 'The lithographers manual' -- subject(s): Lithography, Photolithography 'The printing industry' -- subject(s): Printing industry 'Graphic arts management' -- subject(s): Management, Printing industry
Components such as resistors, capacitors and integrated circuits are generally made by specialized contractors. Integrated circuits are generally made by the process of photolithography. Printed circuit boards (PCBs) are usually manufactured by specialized contractors. The oldest technique was rouse humans to hand solder all components together.
I assume you mean the advantages of Silicon over Germanium in semiconductor devices.Some of them are:Silicon will operate at junction temperatures up to 150C; Germanium will only operate at junction temperatures up to about 60C.Silicon oxides and nitrides are solid insulators, allowing formation of passivation layers over the edges of junctions and thus usage of non-hermetic plastic packages; Germanium oxides and nitrides are not insulators, leaving the edges of junctions exposed and open to surface contaminates forcing usage of metal or glass hermetic packaging, which costs more, to prevent device failure.Silicon ICs are simple to make using just photolithography processes; Germanium ICs would require manual wiring of the components after they were created using photolithography processes, making Germanium ICs impractical for mass production.etc.
Photolithography and the planar process. However with today's very high circuit densities, x-rays or electron beams are typically used to make the photolithographic exposures instead of light.