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Chemistry World
October 23, 2014 |
The resolution revolution Super-resolution fluorescence microscopy earned three of its creators a Nobel prize this year.   |
Chemistry World
October 8, 2014 |
Super-resolution light microscopy wins chemistry Nobel The 2014 chemistry Nobel prize has been given to three pioneers of biomedical imaging, whose work has enabled nanoscale features within cells to be captured in exquisite detail. |
Chemistry World
October 23, 2014
Mark Peplow |
Two for the price of one Super-resolution fluorescence microscopy gives biologists some of the clearest views of the nanoscale mechanics of living organisms. Three pioneers of the technique -- Eric Betzig, Stefan Hell and W E Moerner -- won this year's Nobel prize in chemistry for their work. |
IEEE Spectrum
June 2009
Saswato Das |
Two-Laser Lithography Shrinks Transistors A new microscopy technique gets adapted for chipmaking |
Bio-IT World
September 16, 2004
Rabiya S. Tuma |
Blinded by the Light Myriad advances in light microscopy are increasing resolution, accelerating confocality, improving detection -- and toying with the laws of nature. |
Chemistry World
November 1, 2014 |
An interdisciplinary celebration Rather than some biologists being woken up by a call from Stockholm to discover they are chemists, as the old joke goes, this year it was two physicists and a physical chemist. |
Chemistry World
August 27, 2015
Matthew Gunther |
Nanoscale microscopy casts light on cellular dynamics Scientists at the Howard Hughes Medical Institute, US, have fine tuned an off-shoot of their super-resolution microscopy technique to image dynamic processes within the cell membrane for the first time. |
Chemistry World
January 15, 2015
Emma Stoye |
Blowing up brain tissue with swelling polymer delivers sharper images A new microscopic technique that magnifies specimens by blowing them up like a balloon could make it easier to produce high resolution images of cells and tissues. |
Chemistry World
March 6, 2007
Kira Welter |
Nano-Objects Under the Light Microscope Scientists have developed a lens that can transmit images over long distances with a resolution that is not restricted by light wavelength. |
HHMI Bulletin
Nov 2010 |
New live action microscopy lets scientists follow the first days of a zebrafish embryo's development The promise of live embryo imaging is unquestionable. Light-sheet microscopy will allow scientists for the first time to describe in detail the processes of development in complex vertebrates |
Industrial Physicist
Jennifer Ouellette |
Seeing with Sound Acoustic microscopy is making inroads into areas such as materials characterization, biology, and medical diagnosis, and giving researchers yet another valuable tool in their imaging arsenal. |
Chemistry World
October 15, 2008
Simon Hadlington |
Long-life light illuminates cells The new dye, based on platinum, will carry on emitting light long after any interfering 'autofluorescence' from naturally occurring molecules in the cell has fizzled out. |
Chemistry World
November 28, 2007
Tom Westgate |
Molecular Traffic Spied in Nanoscale Tube Network Chemists in Germany have tracked single molecules diffusing through a porous solid for the first time. |
Technology Research News
November 5, 2003 |
Paired molecules store data Researchers from the University of California at Irvine have bonded a pair of molecules to form a molecule that has two states. The components are photochromic fulgimide and a dye molecule capable of florescence. |
Chemistry World
November 5, 2013 |
A close look at microscopy Atomic force microscopy is widely used in materials science and is beginning to be adopted in life science too. |
Chemistry World
November 20, 2006
Richard Van Noorden |
Microscopy Enters the Fourth Dimension Researchers have taken electron microscopy into the fourth dimension, by recording atoms darting around on a surface in real time. |
Bio-IT World
July 2005
Stan Schwartz |
Trends in Digital Bioscience Imaging The author, a Nikon VP, reviews the improvements in digital imaging that have been achieved over the last 30 years. A new set of research tools is aimed at solving the bottlenecks commonly found in the drug discovery laboratory. |
