In a collaboration between Conway Institute, University College Dublin and SiriusXT, Dunja is developing a cryo —
microscopy system for correlative cryo - fluorescence microscopy.
Not exact matches
«SUNY Poly is thrilled that a worldwide leader in atomic force
microscopy is selecting the campus
for its newest location, and we warmly welcome Park
Systems as we look forward to working closely to advance research capabilities in this important area,» SUNY Poly Interim President Bahgat Sammakia said.
«We believe that our approach is broadly applicable to other low - cost
microscopy systems that use,
for example, inexpensive lenses or cameras, and could facilitate the replacement of high - end bench - top microscopes with cost - effective, mobile alternatives.»
The researchers used a number of methods, including fluorescence and electron
microscopy, in collaboration with Dr. Eugenia Klein of the Institute's
Microscopy Unit; a unique
system in Prof. Alon's lab
for simulating blood vessels in a test tube; and in vivo imaging with Prof. Sussan Nourshargh of Queen Mary University of London.
Thanks to cryo - electron
microscopy, «we have been able to visualise,
for the first time, the high - resolution structure of the human R2TP
system,» states Llorca.
He has 15 years» expertise in a wide range of imaging applications
for CCD, EMCCD, and CMOS cameras as well as diverse
microscopy and image - data visualization
systems.
The research team is now exploring additional biological applications
for the new
system and is working to extend the method to other microscope modalities, such as confocal
microscopy.
The researchers envision many other potential applications
for their inverse design algorithm, including high bandwidth optical communications, compact
microscopy systems and ultra-secure quantum communications.
Korenberg's team is developing a 3D coordinate
system to align various types of neuroimaging data in the macaque brain, from whole - brain MRI connectivity to single - cell confocal data and,
for some areas, subcellular resolution with electron
microscopy.
About Park
Systems Park Systems is a world - leading manufacturer of atomic force microscopy (AFM) systems with a complete range of products for researchers and industry engineers in chemistry, materials, physics, life sciences, semiconductor and data storage indu
Systems Park
Systems is a world - leading manufacturer of atomic force microscopy (AFM) systems with a complete range of products for researchers and industry engineers in chemistry, materials, physics, life sciences, semiconductor and data storage indu
Systems is a world - leading manufacturer of atomic force
microscopy (AFM)
systems with a complete range of products for researchers and industry engineers in chemistry, materials, physics, life sciences, semiconductor and data storage indu
systems with a complete range of products
for researchers and industry engineers in chemistry, materials, physics, life sciences, semiconductor and data storage industries.
Park
Systems, world - leader in atomic force
microscopy (AFM) today announced a webinar to provide next generation technology to improve oil and gas production in both traditional drilling and hydraulic fracturing
for oil & gas producers and equipment manufacturers as they continue to pursue the latest developments in production efficiencies.
His research interests belong to pushing frontiers of
microscopy for cell biology, developing of new microscopical tools,
systems and approaches.
With the world's first and only virtual reality visualization
system for real
microscopy images, arivis InViewR allows scientists to gain even deeper insights into their data by fully immersing them in their images.
PhaseView provides advanced 3D imaging solutions
for life science
microscopy, including modular light sheet
microscopy systems and 3D add - ons
for ultra fast Z - stack acquisition.
CoolLED offers a comprehensive range of LED illumination
systems for bioscience and clinical
microscopy.
With the growing use of fluorescent stains in sample preparation to increase diagnostic sensitivity and specificity, we furthermore sought to incorporate fluorescent imaging capabilities into our mobile
microscopy system and test the use of digital image processing
for image analysis.
Currently, there is no commercial
microscopy system available
for live imaging of Archaea with sufficiently high spatio - temporal resolution to accurately observe processes such as cell division.
Researchers at Columbia University have made a significant step toward breaking the so - called «color barrier» of light
microscopy for biological
systems, allowing
for much more comprehensive,
system - wide labeling and imaging of a greater number of biomolecules in living cells and tissues than is currently attainable.
We also speak to Mervyn Miles, Professor of Physics, about current work in his lab at the University of Bristol, UK, using NuNano probes
for high - speed atomic force
microscopy on biological
systems.
Our comprehensive laboratory includes the ability to test all major organ
systems, electrolytes, white and red blood cells, perform
microscopy, evaluate urine, and check
for parasites.