A number of large and small companies are pursuing the possibility of making storage systems and computers on a scale far smaller than the current generation of microelectronic components.

A large-scale application of photochemistry is photoresist technology, used in the production of microelectronic components.

The major markets served are health care, fuel and oil, microelectronic components, magnetic tape, film, fiber, paint, petrochemicals and electric power, among others.

The most common microelectronic components are semiconductor transistors, although all main electronic components (resistors, capacitors, inductors) can be created at a microscopic level.

The company's strategy is to commercialize ultracapacitors, high voltage capacitors and microelectronic components and systems in selected markets.

These included plans to restructure operations for producing microelectronic components and systems, and for reclaiming scrap metal.

Using microelectronic components, he was able to reduce all the units to amazingly small size.

Supercomputers are critical for building the best aircraft and microelectronic components and are seen as increasingly important for fabricating advanced chemicals, materials and medicine.

As techniques improve, the scale of microelectronic components continues to decrease.

Molecular electronics is an effort to build a Lilliputian world of logic and memory circuits that are less than one-tenth the size of today's most advanced microelectronic components.