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Fluorescence Microscopes

Speed, Flexibility, and Precision in a Compact Design. The upright RS-G4 research confocal microscope features a new strip mosaic image capture process coupled with its proprietary image-stitching algorithm to create cellular-level images with unprecedented down-to-the-pixel accuracy and perfect homogeneity. The process generates ...

Specifications

Scan Range (X): 120000 um
Scan Range (Y): 80000 um
Scan Range (Z): 200 um
Spatial Resolution (lateral): 1.5 um
Spatial Resolution (vertical): 4 um
Digital H&E images within minutes of tissue removal Hematoxylin & Eosin staining is the pathologist’s standard tool to review cellular and sub-cellular imaging of tissue removed for microscopic evaluation. This standard has been used for decades and provides distinctive pink & purple colors which define cellular ...

Specifications

Scan Range (X): 25000 um
Scan Range (Y): 25000 um
Scan Range (Z): 1000 um
Spatial Resolution (lateral): 1.25 um
Spatial Resolution (vertical): 5 um
Real-time cellular level pathology Layer by layer. See beneath the skin. In Vivo examinations with the VivaScope technology using Confocal Laser Scanning Microscopy (CLSM) allow for an “Optical Biopsy” using a non-invasive procedure. See the different skin layers of your patients in real time. The VivaScope 1500 is a ...

Specifications

Scan Range (X): 8000 um
Scan Range (Y): 8000 um
Scan Range (Z): superficial reticular dermis um
Spatial Resolution (lateral): 1.25 um
Spatial Resolution (vertical): 5 um
XIF200 Inverted Research Fluorescence Microscope
AMADA Microscope
The XIF200 is a high-quality inverted research fluorescence microscope featuring a UCIS Infinity Independent Achromatic Optical System, WF10x Plan Eyepieces with high eye point, and a Seidentopf Binocular Viewing Head inclined at 45º.  The microscope comes with long work distance plan achromatic objectives, a 0.30 Abbe ...

Specifications

Scan Range (X): 135,000 um
Scan Range (Y): 85,000 um
Scan Range (Z): -- um
Spatial Resolution (lateral): -- um
Spatial Resolution (vertical): 1 um
XIF100 Inverted Research Fluorescence Microscope
AMADA Microscope
Description: The XIF100 Inverted Research Fluorescence Microscope is a high-quality microscope designed for research applications. It features a UCIS Infinity Independent Achromatic Optical System and a Seidentopf Binocular Viewing Head with 30º inclination and 52-75mm interpupillary distance settings, and ±5 diopter adjustment. The ...

Specifications

Scan Range (X): 20000 um
Scan Range (Y): 20000 um
Scan Range (Z): -- um
Spatial Resolution (lateral): -- um
Spatial Resolution (vertical): 1 um
MINFLUX 3D Platform
Abberior Instruments GmbH
The MINFLUX platform offers an unprecedented array of imaging possibilities and allows you to resolve structures as small as a molecule, along all three dimensions.This unmatched resolution capability combined with unprecedented speeds reveals sample details never seen before. The MINFLUX is the world’s most powerful ...

Specifications

Scan Range (X): 10 um
Scan Range (Y): 15 um
Scan Range (Z): -- um
Spatial Resolution (lateral): 1000 um
Spatial Resolution (vertical): 3000 um
FACILITY Platform
Abberior Instruments GmbH
Our FACILITY platform offers you a workhorse instrument that boasts top-of-the-line superresolution STED and confocal imaging. It combines cutting-edge microscopy with unprecedented ease-of-use. Our software allows beginners to intuitively arrive at a top-notch image within three clicks, while also giving experts full control over ...

Specifications

Scan Range (X): -- um
Scan Range (Y): -- um
Scan Range (Z): -- um
Spatial Resolution (lateral): -- um
Spatial Resolution (vertical): -- um
INFINITY Platform
Abberior Instruments GmbH
The INFINITY platform is the most customizable platform for all things microscopy. Whether it’s STED and confocal microscopy, intravital microscopy, material science or optical trapping, theINFINITY is always up to the challenge. Just tell us what you need and we will build you a customized, continuously upgradable system ...

Specifications

Scan Range (X): 20 um
Scan Range (Y): 20 um
Scan Range (Z): -- um
Spatial Resolution (lateral): -- um
Spatial Resolution (vertical): -- um
InCyt Basic I/P Imaging System
Intracellular Imaging
The nbsp;InCyt Basic I/P TM Imaging System includes everything needed for calcium and other single excitation and ratio-metric fluorophore experiments. The system includes: an inverted epi-fluorescence/phase contrast microscope, low-light level integrating CCD camera, computer controlled filter changer, Xenon UV/VIS arc lamp, ...

Specifications

Scan Range (X): -- um
Scan Range (Y): -- um
Scan Range (Z): -- um
Spatial Resolution (lateral): 640 um
Spatial Resolution (vertical): 480 um
InCyt Standard I/P Imaging And Photometry System
Intracellular Imaging
The InCyt Standard I/PTM Imaging and Photometry System includes everything needed for single excitation and ratio-metric fluorophore, single emission fluorophore experiments. The system includes: an inverted epi-fluorescence/phase contrast microscope, microphotometer assembly, low-light level integrating CCD camera,175 ...

Specifications

Scan Range (X): -- um
Scan Range (Y): -- um
Scan Range (Z): -- um
Spatial Resolution (lateral): 640 um
Spatial Resolution (vertical): 480 um
InCyt High Speed I/P Imaging And Photometry System
Intracellular Imaging
The InCyt High Speed I/PTM Imaging and Photometry System includes everything needed for calcium and other single excitation and ratio-metric fluorophore experiments. The system includes: an inverted epi-fluorescence/phase contrast microscope, microphotometer assembly, low-light level integrating CCD camera, computer ...

Specifications

Scan Range (X): -- um
Scan Range (Y): -- um
Scan Range (Z): -- um
Spatial Resolution (lateral): 640 um
Spatial Resolution (vertical): 480 um
Automatic Fluorescence Imaging Module For Qiagen‘s GeneReaderTM NGS Platform
Volpi
The Volpi Group, a 60-year-old optical electronics firm based in Schlieren, Switzerland, today announced that it is collaborating with QIAGEN Instruments AG on the manufacture of the automated fluorescence imaging module used in QIAGEN’s GeneReaderTM next-generation sequencing (NGS) instrument. The benchtop GeneReader combines ...

Specifications

Scan Range (X): -- um
Scan Range (Y): -- um
Scan Range (Z): -- um
Spatial Resolution (lateral): -- um
Spatial Resolution (vertical): -- um

Frequently Asked Questions

A fluorescence microscope is a type of microscope that uses fluorescence to study the properties of biological or chemical samples. It works by using a specific wavelength of light to excite fluorescent molecules in the sample, which then emit light at a longer wavelength that can be detected by the microscope.

Fluorescence microscopes have a wide range of applications in biology, chemistry, and materials science. They can be used to study the properties of biological molecules, track the behavior of cells in living organisms, and visualize the distribution of proteins and other biomolecules within cells.

The main advantage of using a fluorescence microscope is the ability to visualize specific molecules or structures within a sample with high sensitivity and specificity. Fluorescence can also be used to track dynamic processes in real time, making it a powerful tool for studying living systems.

When choosing a fluorescence microscope, it is important to consider factors such as the type and sensitivity of the detector, the excitation and emission wavelengths used, and the optical design of the microscope. The specific requirements will depend on the application, so it is important to consult with a specialist to determine the best solution for your needs.

There are several different types of fluorescence microscopes, including widefield fluorescence microscopes, confocal fluorescence microscopes, and super-resolution fluorescence microscopes. Each type has its own strengths and limitations, and the choice of microscope will depend on the specific requirements of the application.

Fluorescence microscopes are available from a wide range of manufacturers and suppliers, including those listed on FindLight's fluorescence microscope page. It is important to choose a reputable supplier that offers high-quality products and reliable support. The product pages provide information on the technical specifications and features of each microscope, and users can use the orange button (on product pages) to directly reach out to the respective supplier for more information.

There are 12 different Fluorescence Microscopes from suppliers and manufacturers listed in this category. In just a few clicks you can compare different Fluorescence Microscopes with each other and get an accurate quote based on your needs and specifications. Please note that the prices of Fluorescence Microscopes vary significantly for different products based on various factors including technical parameters, features, brand name, etc. Please contact suppliers directly to inquire about the details and accurate pricing information for any product model. Simply navigate to the product page of interest and use the orange button to directly reach out to the respective supplier with one click.

Did You know?

Did you know that fluorescence microscopes are powerful tools used in non-contact inspection? Fluorescence microscopes use fluorescence to visualize biological and non-biological samples, enabling scientists and researchers to observe cellular and molecular structures with high resolution and specificity. Fluorescence microscopes work by exciting fluorescent molecules within the sample using a specific wavelength of light, and then detecting the emitted fluorescence with a camera or detector. This allows for the visualization of structures that are otherwise invisible under standard microscopy techniques. One advantage of fluorescence microscopy is its ability to selectively label specific molecules or structures within a sample, allowing for targeted observation and analysis. Additionally, fluorescence microscopy can be used to study live samples, as the fluorescent molecules can be non-toxic and non-invasive. Fluorescence microscopy is used in a wide range of applications, including biological research, medical diagnostics, and material sciences. It is particularly useful for studying the behavior of proteins, DNA, and other biomolecules in living cells and tissues.