The HCS302 microscope hot and cold stage is a single thin film heater stage. The HCS302 temperature controlled environment is an ideal choice for optical thermal microscopy or for other general applications requiring optical access to the sample. All of the windows on the HCS302 stage are removable and exchangeable allowing the HCS302 to be used for small angle X-ray diffraction, FTIR, and other experiments requiring beam access to the sample.
The Leica DMi8 inverted microscope, with built-in modularity, grows and adapts to ever-changing research needs. With this new concept, life scientists can custom-configure an inverted microscope now and upgrade it in the future for applications ranging from basic imaging to advanced fluorescence microscopy. The Leica DMi8 is equipped with an additional incident illumination port, the Infinity Port, which facilitates the integration of additional light sources and laser systems for advanced applications.
The modular Leica M165 C fully apochromatic corrected stereo microscope with 16.5:1 zoom and maximum 906 lp/mm (planapochromatic 2x objective) allows the user to view the smallest detail of the sample and perform a 3-D analysis without changing instruments.
The stereo microscope with the comprehensive range of ergonomic accessories, LED based illuminations and application specific software combines flexibility, convenience, and outstanding imaging performance for material testing and life science application.
Combines large sample overview and detailed sample imaging.
The ergonomic and modular Leica M80 routine stereo microscope with ESD design, large field of view, increased depth of focus and improved resolution easily replicates measurements, photography or inspections of samples such as circuit boards, hairs and fibers, and organ and plant tissues.
The BX61 microscope has a built-in motorized Z-drive (0.01 m resolution), and can be equipped with a motorized nosepiece, condenser, reflected light or fluorescence illuminator, and up to three 6-position filter wheels in various locations. The sixteen handswitch buttons and eight frame buttons are fully programmable through a computer interface, and key configurations can be defined in the software.
The BX51P polarizing microscope is an investigative tool for the identification of isotropic and anisotropic materials, forensic analysis, thin film/polymer/crystal identification, and extraneous particulates.
The Olympus FluoView™ FV1000 is a next-generation imaging system designed for high-resolution, confocal observation of both fixed and living cells. The FV1000 offers advances in confocal system performance while providing the speed and sensitivity required for live cell imaging with minimal risk of damage to living specimens.
The Nanolog® series of spectrofluorometers are specifically designed for research in nanotechnology and the frontiers of nanomaterials. Based on the world-wide proven technology of the FluoroLog®, the NanoLog® detects fluorescence in the near-IR from 800 to 1700 nm (optional multi-channel detection to 2 µm, single-channel detection to 3 µm), with visible and UV options possible. With the NanoLog® comes specially designed software ideal for classifying SWNTs, performing energy transfer calculations, and saving custom routines and instrument layouts.
Nikon E800 Microscope has been considered a Nikon research microscope top-of-the-line. Great versatility is the hallmark of this instrument. Includes special train vertical illumination with a high optical correction and a sliding mechanism for rapid exchange of up to five modules epi-fluorescence filter different.
The BX51P polarizing microscope is an investigative tool for the identification of isotropic and anisotropic materials, forensic analysis, thin film/polymer/crystal identification, and extraneous particulates.
Olympus has designed its polarizers and polarizing condensers to further enhance performance in polarized light. This means a higher EF* value, resulting in unmatched image brightness and contrast.
