Researchers at the University of Gothenburg, Sweden, have developed a new method to study single cells while exposing them to controlled environmental changes. The unique method, where a set of laser tweezers move the cell around in a microscopic channel system, allows the researchers to study how single cells react to stress induced by a constantly changing environment.
Shrink Technologies, Inc., a California corporation, has agreed to be acquired in a stock-for-stock transaction by AudioStocks, Inc. (OTCBB: AUIO). The companies have executed a binding letter of intent and expect to con...
Life Technologies Corporation (NASDAQ: LIFE), a provider of innovative life science solutions, and Zymera, Inc., today announced a licensing and supply agreement that gives Zymera rights to Life Technologies' extensi...
A proposal by a team of UC Davis scientists to develop the world's first electron microscope capable of filming live biological processes has been awarded a $2 million grant from the National Institutes of Health.
Femtosecond lasers (fs-lasers) are the key to ultra-precision processing. Whether in medicine, electronics, aerospace or solar technology, thin coatings can be removed, fiber-reinforced plastics drilled and ceramic components' surfaces structured using fs-lasers.
The Semiconductor Metrology/Inspection Equipment market finally outperformed the rest of the overall semiconductor front-end wafer processing equipment market for the first time in three years, according to the report &q...
The Siemens appearance at Achema 2009 centers on sustainability. The exhibits show how the process industry can benefit from Siemens products, systems and solutions in such areas as energy efficiency, emission protection...
Like tiny Jedi knights, tunable fluidic micro lenses can focus and direct light at will to count cells, evaluate molecules or create on-chip optical tweezers, according to a team of Penn State engineers. They may also pr...
A material that is a hundred thousand times heavier than water and more dense than the core of the Sun is being produced at the University of Gothenburg. The scientists working with this material are aiming for an energy process that is both more sustainable and less damaging to the environment than the nuclear power used today.
A large, international collaboration between Arizona State University, the University of California San Diego and the University of British Columbia, has come up with a surprising twist to photosynthesis by swapping a key metal necessary for turning sunlight into chemical energy.
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