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Microscopy Tech Pulse (3/16/2021)

Microscopy Tech Pulse
Microscopy Tech Pulse is a special edition newsletter from Photonics Media and Mad City Labs Inc. covering key developments in microscopy technology.
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Tuesday, March 16, 2021
     
March 2021
Microscopy Tech Pulse is a special edition newsletter from Photonics Media and Mad City Labs Inc. covering key developments in microscopy technology. Manage your Photonics Media membership at Photonics.com/subscribe.

 
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Microscopy Advancement Expands Camera-based 3D Imaging
Microscopy Advancement Expands Camera-based 3D Imaging
Researchers at Boston University introduced a multifocus optical microscopy technique for simultaneously acquiring images at differing depths. The method can be added to existing camera-based microscopy techniques, such as fluorescent, phase contrast, and dark-field imaging.
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Near-Field Scanning Optical Microscopes: Capabilities and Applications
Mad City Labs Inc.
Near-Field Scanning Optical Microscopes: Capabilities and Applications
NSOM techniques and instrumentation have evolved to become vital tools for material characterization, providing high-quality data and continually expanding utility, spot-on accuracy, adaptability, and exceptionally high definition. This article examines apertured and apertureless NSOM equipment and techniques: how they are achieved, what information they can provide, and applications in which they excel.
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Light-Sheet Microscopy Method Improves Cancer Diagnostics
Light-Sheet Microscopy Method Improves Cancer Diagnostics
A microscopy technique developed by researchers at TU Wien (Austria) in collaboration with TU Munich could lead to more reliable cancer diagnostics. The technique allows a tumor to be analyzed after surgery in 3D without cutting the tumor into sections.
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Technique Enhances Effect of Fluorescence Lifetime Microscopy
Technique Enhances Effect of Fluorescence Lifetime Microscopy
Researchers from Tokushima University have developed a method of fluorescence lifetime microscopy that does not require mechanical scanning. The technique drastically increases the effectiveness of fluorescence lifetime microscopy (FLIM).
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Microscopy Method More Sensitive for Viewing Live Cells
Microscopy Method More Sensitive for Viewing Live Cells
Researchers from the University of Tokyo have developed a way to increase the extent and types of information they are able to ascertain about the insides of living cells by using existing microscopy techniques. Their method does not require staining or fluorescent dyes.
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Imaging Without Limit, on Demand
Imaging Without Limit, on Demand
A team at Columbia University has introduced a way to program a layered crystal in such a way that it is able to open doors to imaging capabilities beyond common limits, on demand. The technique exerts control over nanolight — light that is able to access the nanoscale — providing insight into the field of optical quantum information processing.
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Diagnostic Solution, Powered by Microfluidic Chip, Leads to Inexpensive Hemoglobin Measurements
Diagnostic Solution, Powered by Microfluidic Chip, Leads to Inexpensive Hemoglobin Measurements
SigTuple Technologies and the Indian Institute of Science demonstrated an AI-powered, imaging-based tool for the estimation of hemoglobin levels. The setup combines a microfluidic chip and an AI-enabled microscope designed for deriving the total, as well as differential counts, of blood cells. The method uses a microfluidic chip and reagent, costing less than $0.14, as well as a detector in the form of a conventional microscopy camera.
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