Sentences with phrase «microscopy techniques for»
From 2000 to 2003 he was a research scientist at Evotec, Hamburg, developing advanced fluorescence microscopy techniques for high - throughput drug screening.
http://www.elmi2018.eu/
She has extensive research experience in the development and application of novel electron microscopy techniques for energy materials, such as lithium ion battery materials and fuel cell catalysts.
It also adds details to the descriptions of the microscopy techniques for which the Nobel was awarded.
«Down to the quantum dot: Ultrahigh - resolution 3 - D microscopy technique for electric fields.»
Not exact matches
«Increasingly, (atomic force microscopy) is being selected for nanotechnology research over other metrology techniques due to its non-destructive measurement and sub-nanometer accuracy,» Park, the company's CEO, said.
For the current study, working in the CU Cancer Center Advanced Light Microscopy Core, co-authors Dominik Stitch, PhD, and Radu Moldovan, PhD, implemented a new technique known intravital multiphoton in vivo microscopy that enabled the team to watch fluorescent - tagged liposomes in real - time after injection.
Forthcoming workshops cover techniques as varied as «molecular and genetic tools for the analysis of medaka and zebrafish development» and «cryo - electron microscopy and 3 - D image reconstruction.»
Together, these findings demonstrate that emerging noninvasive techniques to measure corneal nerve fiber alterations such as in vivo corneal confocal microscopy may be useful clinical tools to screen for and monitor progression of peripheral neuropathy in HIV - infected patients.
NSF provides state - of - the - art imaging tools to academic labs; supports efforts to develop new microscopy techniques; and funds training for young scientists and engineers in the field.
The technique could also be modified for microscopy, allowing imaging of photosynthesis inside the plant cells.
The researchers studied the diamond samples using a combination of advanced transmission electron microscopy techniques at EPFL's Interdisciplinary Centre for Electron Microscopy.
Jacques Dubochet of the University of Lausanne in Switzerland, Joachim Frank of Columbia University and Richard Henderson of the MRC Laboratory of Molecular Biology in Cambridge, England, won for their contributions to the development of the technique, called cryo - electron microscopy, the Royal Swedish Academy of Sciences announced October 4.
As ICREA Prof. at ICFO Valerio Pruneri comments «the device means a major step forward for light microscopy techniques, especially for microarray platforms since it could definitely be used as a point - of - care tool in the diagnosis and treatment of major diseases such as Sepsis, a critical area where fast and accurate results can translate into life changing health outcomes for individuals.
«Ultra-stable microscopy technique tracks tiny objects for hours.»
But current super-resolution microscopy techniques do not deliver spectral information, which is useful for scientists to understand the behavior of individual molecules, as well as to enable high - quality multicolor imaging of multiple targets.
In this role, she works with many collaborators to facilitate implementing superresolution microscopy into their research programs as well as developing novel techniques for microbial live cell imaging.
Cancer Virus made me reflect on just how quickly biology has progressed: in the 1960s, electron microscopy was in its infancy, and DNA - based techniques for characterising what might be lurking in tissue simply didn't exist.
To find answers, Columbia researchers developed a new microscopy technique that allows for the direct tracking of fatty acids after they've been absorbed into living cells.
Another popular technique for 3D cell imaging called spinning disc confocal microscopy can't image samples nearly as long as Betzig's technique, but it is still better for imaging thick cells and tissue.
I was working mainly in the fields of electron microscopy and immunohistochemistry, and the research plan for my yearlong stay at the training site, drawn up before I left for Germany, was to extend my use of these techniques.
More invasive analytical techniques of Raman microspectroscopy and scanning electron microscopy provided characteristic fingerprints for the pigments.
This new technique holds significant promise for applications in metrology and chemical sensing, as well as potential improvements in adaptive optics for microscopy and biomedicine.
The team has succeeded not only in deciphering what is happening in the cell interior but also, using a revolutionary live - cell microscopy technique, the scientists have observed for the first time individual receptors at work in intact cells.
Unlike atomic force microscopy, microfluidics is a high - throughput screening technique, but additional work is required to assess the efficiency of this type of biophysical - based sorting for stem cell enrichment.
Our training programme offers researchers a wide range of workshops to enhance their scientific skills, like courses on statistics, microscopy and bioinformatics.There is also more technical training, for instance in specific experimental techniques, so they become better prepared for the varied demands of a scientific career.
Scientists at Albert Einstein College of Medicine of Yeshiva University and their international collaborators have developed a novel fluorescence microscopy technique that for the first time shows where and when proteins are produced.
By parsing the cells with slices of laser light and then correcting for any obstruction with the same AO technique astronomers use to correct blurriness in observations of stars, the scientists have come up with a microscopy technique that looks like an artistic rendering.
We will establish cryofixation and freeze substitution techniques and we will develop and apply approaches for correlative light and electron microscopy.
Jacques Dubochet was awarded the Nobel Prize in Chemistry in 2017, for using vitrified water to prepare biological samples for electron microscopy; a technique that is still at the heart of cryo - electron microscopy.
If you question whether microscopy really should be considered part of the future of diffraction, let me point out that many of the algorithms and other techniques for turning collections of cryoEM images into three - dimensional structures had their origins in X-ray diffraction.
«It is a fantastic application of atomic - resolution microscopy techniques, and it confirms that spinel formation can account for the origin of voltage fading by determining the exact location of the spinel, and how the whole structure fragments as the spinels are formed.»
Our experimental and theoretical analysis draws upon nuclear magnetic resonance (NMR) spectroscopy, a variety of microscopy techniques such as transmission electron microscopy, computation tools such as the NWChem for high - performance computational chemistry as well as supercomputers, and other tools.
Bioimaging The platform provides access to microscopy and spectroscopy techniques not available elsewhere and highly specialized competence for biomolecular studies.
His group focuses on novel techniques and instrumentation for high - resolution structural and molecular microscopy based on integrated fluorescence and electron microscopy.
Vector is also designed for high - speed scanning imaging techniques such as multiphoton imaging or laser scanning confocal microscopy.
Cryo - electron microscopy (cryo - EM) is an experimental technique that generates 3D electron density maps of medium resolution (7 - 10Å) for large macromolecular assemblies.
Atomic force microscopy is a powerful and versatile scientific technique that continues to advance nanoscience for the benefit of society.
The researchers used the techniques, such as fluorescent correlation spectroscopy and confocal microscopy, for measurements of protein - mineral binding.
As Professor Arne Brataas, of the Norwegian University of Science and Technology, and chairman of the Kavli Nanoscience Prize Committee said «Atomic force microscopy is a powerful and versatile scientific technique that continues to advance nanoscience for the benefit of society.»
The invention of atomic force microscopy has spawned a wide variety of measurement and manipulation techniques invaluable for many purposes.
For this latest study of DNA nanostructures, Ren used an electron - beam study technique called cryo - electron microscopy (cryo - EM) to examine frozen DNA - nanogold samples, and used IPET to reconstruct 3 - D images from samples stained with heavy metal salts.
The combination of NLO microscopy techniques providing morphological information, together with those providing functional information is a crucial issue for tissue classification and pathological assessment.
Furthermore, the microscope will be capable of performing live - cell super-resolution imaging through structured illumination microscopy (SIM) and Super-Resolution Radial Fluctuations (SRRF); for fixed cells resolutions on the scale of tens of nanometres will be achievable using single molecule localization microscopy (SMLM) techniques.
The journal also focuses on the technological aspects of pathology, including molecular biology techniques, morphometry aspects (stereology, DNA analysis, syntactic structure analysis), communication aspects (telecommunication, virtual microscopy, virtual pathology institutions, etc.), and electronic education and quality assurance (for example interactive publication, on - line references with automated updating, etc.).
The core facility is a two - photon in vivo imaging platform developed at the Nonlinear bioimaging laboratory, a technique that allows for non-invasive structural and functional measurements in small animal models at different scales: from macroscopic imaging of the brain morphology to highly resolved microscopy of neuron populations, single neurons, and even subcellular structures.
In addition to 2 - photon microscopy, lightsheet microscopy is rapidly becoming the preferred technique for many of these samples due to its fast temporal resolution and decreased phototoxicity.
NYSCF — Robertson Neuroscience Investigator Dr. Ed Boyden, MIT Media Lab, published two papers elaborating on the uses for his groundbreaking imaging technique, expansion microscopy.
«For more than a hundred years it was thought that there was a physical limit to the resolution of microscopy but these techniques have pushed that limit far beyond what anyone thought possible.
The team has systematically validated the fidelity, accuracy, reliability, reproducibility and versatility (for many cell types) of this method, using various other techniques such as confocal microscopy, flow cytometry, Western blotting and Raman spectroscopy.
Other structural biology techniques, such as cryo - electron microscopy, can not resolve cellular elements beyond an intact cell's surface, explains Julia Mahamid of the Max Planck Institute for Biochemistry, a member of the research team (Science 2016, DOI: 10.1126 / science.aad8857).