New products

Magus Lum V500L Fluorescence Inverted Microscope (82909)
9993.46 $
Tax included
The MAGUS Lum V500L is an inverted microscope designed for fluorescence microscopy in reflected light and for brightfield and phase-contrast microscopy in transmitted light. Fluorescence observation is performed using filter sets for the DAPI, FITC, and TRITC fluorochromes. The inverted design allows specimens to be examined directly in common laboratory vessels such as Petri dishes and flasks. The maximum vessel height is 55 mm in the standard position, or up to 165 mm when the stand is tilted. The optical system is optimized for lab ware with a bottom thickness of 1.2 mm.
Magus Metal V700 DIC Metallurgical Inverted Microscope (83714)
11228.61 $
Tax included
This microscope is designed for examining the microstructure of metals, alloys, semiconductor materials, and other opaque specimens. Its inverted construction places no limits on the size of the sample, with only the weight restricted to a maximum of 2 kg. Before observation, the specimen must be properly prepared and then placed on the stage with the surface facing downward. The microscope supports three reflected-light contrast techniques: brightfield, simple polarization, and differential interference contrast (DIC).
Magus Lum VD500L Fluorescence Inverted Digital Microscope (83022)
11790.04 $
Tax included
The MAGUS Lum V500L is an inverted microscope designed for fluorescence microscopy in reflected light as well as brightfield and phase-contrast microscopy in transmitted light. For fluorescence observation, it uses DAPI, FITC, and TRITC fluorochrome filters. The inverted configuration makes it possible to study samples directly in laboratory vessels such as Petri dishes and flasks. Standard lab ware up to 55 mm in height can be used, or up to 165 mm when the stand is tilted. The optical system is optimized for lab ware with a bottom thickness of 1.2 mm. 
Levenhuk 400M Monocular Microscope (75419)
188.63 $
Tax included
The Levenhuk 400M Monocular Microscope is designed for laboratory research on biological samples. It produces sharp, high-contrast images and supports observations at magnifications ranging from 40x to 400x. The microscope is suitable for use in medical, educational, and research environments. It features built-in LED illumination that can operate either on batteries or via an AC power supply. The optical system combines a wide-field eyepiece with achromatic objectives of different magnifications.
Levenhuk MED 25B Binocular Microscope (73992)
1205.94 $
Tax included
The Levenhuk MED 25B microscope is a binocular laboratory instrument equipped with two condensers: one for brightfield and one for darkfield observation. Both condensers support oil immersion techniques. This microscope is designed for professional use in medicine, microbiology, biochemistry, and other scientific disciplines, and is suitable for research, diagnostic work, and educational purposes. It provides magnification up to 1000x, supports Köhler illumination, and enables detailed study of complex microstructures.
Levenhuk MED D30T LCD Digital Trinocular Microscope (73999)
2162.62 $
Tax included
The Levenhuk MED D30T LCD is a trinocular biological microscope equipped with a digital camera featuring a built-in LCD screen. It allows full control of image and video settings directly on the camera display, without the need to connect the microscope to a computer. Image capture, video recording, parameter adjustment, and data review can all be performed directly on the screen. The microscope is built with infinity-corrected semi-plan achromatic optics and supports Köhler illumination, making it a professional instrument suitable for a wide range of laboratory applications.
Levenhuk Wezzer PRO LP700 Weather Station (85568)
449.13 $
Tax included
The Levenhuk Wezzer PRO LP700 weather station is a modern, professional-grade device designed to deliver accurate and detailed information about atmospheric conditions both indoors and outdoors. Indoors, it precisely measures atmospheric pressure, temperature, and air humidity. Outdoors, it records a wide range of parameters, including temperature, humidity, wind speed and direction, precipitation, light intensity, and UV index. This makes the weather station suitable for home use as well as for monitoring weather conditions in agricultural and professional environments.
Magus SPH360 Phase Contrast Device, with set of Plan S-Apo Ph 4х/10х/20х/40х/60х H60mm objectives (85160)
11352.12 $
Tax included
The MAGUS SPH360 phase contrast system includes a set of phase contrast sliders and phase contrast objectives. It is designed for observing transparent, low-contrast specimens that are difficult or impossible to see using brightfield illumination. Because staining procedures can damage or kill living cells, phase contrast microscopy allows living, unstained organisms to be examined in their natural condition. This technique is widely used in medicine, ecology, pharmacology, agriculture, and related fields.
Magus Epi-FL06 Epi-Fluorescence Attachment, mercury lamp, fluorescence filter cubes В/G/UV/V/R/FITC/TRITC/DAPI (85157)
10038.38 $
Tax included
The epi-fluorescence attachment is designed for fluorescence microscopy. This technique is based on the ability of certain substances to emit light when excited by illumination at a specific wavelength. Some specimens naturally exhibit autofluorescence, while others require treatment with fluorochromes to produce a visible fluorescent signal. The attachment is installed in the optical path between the microscope head and the stand. Inside the unit is a six-position rotating turret fitted with fluorescence filters.
Magus Epi-FL04 LED Epi-Fluorescence Attachment, fluorescence filter cubes FITC/TRITC/DAPI (85156)
8151.97 $
Tax included
The epi-fluorescence attachment is designed for fluorescence microscopy. This technique is based on the ability of certain substances to emit light when excited by illumination at a specific wavelength. Some specimens show natural autofluorescence, while others require staining with fluorochromes to produce a fluorescent signal. The attachment is installed in the optical path between the microscope head and the stand. Inside the unit is a four-position rotating turret equipped with three narrow-band fluorescence filter sets for the fluorochromes DAPI, FITC, and TRITC. 
Magus FL S-APO60 PlanF S-Apo 4х/10х/20х/40х/100х oil ∞/0.17 H60mm Objective Set (85154)
4491.44 $
Tax included
The plan semi-apochromatic fluorescent objective is designed for both transmitted-light and fluorescence microscopy. The objective lenses are manufactured from fluorite, a highly transparent mineral that performs consistently across a wide wavelength range. Fluorite does not exhibit autofluorescence or birefringence and provides correction of the secondary spectrum. A high numerical aperture increases resolving power, producing images in the eyepieces and through a digital camera that are brighter, cleaner, and higher in contrast than those obtained with standard plan achromatic objectives.
Magus Epi-FL04M LED Epi-Fluorescence Attachment, fluorescence filter cubes B/G/UV (85153)
6928.06 $
Tax included
The epi-fluorescence attachment is designed to enable fluorescence microscopy. This technique relies on the ability of certain substances to emit light when excited by illumination at a specific wavelength. Some specimens naturally exhibit autofluorescence, while others require treatment with fluorochromes to produce a fluorescent signal. The attachment is installed in the optical path between the microscope head and the stand. Inside the unit is a four-position rotating turret that holds three broadband fluorescence filter sets for blue (B), green (G), and ultraviolet (UV) excitation.
Magus SPH2 Phase Сontrast Device (85152)
2694.86 $
Tax included
The MAGUS SPH2 phase contrast system includes a set of phase contrast sliders, a set of phase contrast objectives, and a centering telescope. This system is designed for the observation of transparent, low-contrast specimens that are difficult or impossible to see using brightfield illumination. Because staining procedures can damage or kill living cells, phase contrast offers a key advantage by allowing the study of living, unstained organisms in their natural state. The technique is widely used in medicine, ecology, pharmacology, agriculture, and related fields.
Magus FM4 A10 Focus Mount (85150)
224.56 $
Tax included
The focusing mechanism is a structural component of the stereomicroscope designed to secure the microscope head to the stand. It enables precise vertical movement of the microscope head, allowing accurate focusing on the specimen. Focus adjustment is performed using coaxial knobs, which provide smooth and controlled operation during observation.
Magus HCM360 Device for working with the Hoffman modulation contrast, with objective set (85123)
2290.63 $
Tax included
The MAGUS HCM360 system is a complete set designed for Hoffman modulation contrast microscopy. It includes plan achromatic objectives, a dedicated condenser, and a slider. The objective modulator is aligned with the slider’s slit apertures using a centering telescope supplied with the microscope. Hoffman modulation contrast produces high-resolution, relief-like images of living specimens. It enhances visibility and contrast while preserving fine structural detail and avoiding diffraction halos. This makes it suitable for long working distances and high numerical apertures.
Magus XY A10 Mechanical Stage for stereomicroscopes (85148)
314.39 $
Tax included
The stage is mounted in the base of the stereomicroscope and is used for precise and smooth movement of the sample beneath the objective, as well as for documenting observations with a camera. Coaxial control knobs allow controlled movement of the specimen along the X axis (right and left) and the Y axis (forward and backward). The transparent glass surface of the stage enables work with both reflected and transmitted light. A vernier scale is provided for precise measurement along a single axis.
Magus SPD A10 Polarizer/Analyzer Set (85146)
224.56 $
Tax included
This polarizer and analyzer set is designed to enable polarized light techniques. It includes a polarizer and an analyzer, and the intensity of transmitted light varies depending on their relative orientation. When the polarizer and analyzer are positioned perpendicular to each other, complete light extinction occurs. Polarized light is used to study anisotropic samples such as geological specimens, biological structures, and polymer materials.
Magus BOP A10 Beamsplitter with one port (85143)
523.24 $
Tax included
The CMO (Common Main Objective) system allows additional accessories to be incorporated into the optical path. A beamsplitter with a single port is mounted between the microscope head and the zoom objective and is used for installing a digital camera. A stereomicroscope built with a CMO design produces high-quality digital images without field distortion. This makes it well suited for photo and video recording, as well as for presentations and lectures that rely on visual demonstrations.
Magus BTP A10 Beamsplitter with two ports (85142)
1010.56 $
Tax included
The CMO (Common Main Objective) system allows additional accessories to be integrated into the optical path. A two-port beamsplitter is installed between the microscope head and the zoom objective, enabling the simultaneous use of two digital cameras. A stereomicroscope with a CMO design produces high-quality digital images without field distortion. This makes it an excellent choice for photo and video recording, as well as for presentations and lectures that rely on visual materials.
Magus 2APO 2x Plan Apochromatic Main Objective (85137)
2021.14 $
Tax included
To generate a three-dimensional image, a CMO stereomicroscope uses a common main objective positioned strictly perpendicular to the specimen plane. Light transmitted through or reflected from the specimen enters this objective and is divided into two parallel optical paths. The stereoscopic angle is 11 degrees. The separated light beams are then directed to the eyepieces or to a digital camera. Replacing the main objective changes the microscope’s magnification, field of view, and working distance.
Magus 05A 0.5x Achromatic Main Objective (85136)
280.7 $
Tax included
To create a three-dimensional image, an Abbe stereomicroscope uses a common main objective positioned precisely perpendicular to the specimen plane. Light transmitted through or reflected from the sample enters the main objective and is divided into two parallel optical paths. The stereoscopic angle is 11 degrees. The separated light beams are then directed to the eyepieces or to a digital camera. Replacing the main objective changes the microscope’s overall magnification, field of view, and working distance.
Magus 03A 0.3x Achromatic Main Objective (85134)
314.39 $
Tax included
To generate a three-dimensional image, a CMO stereomicroscope uses a common main objective positioned strictly perpendicular to the specimen plane. Light transmitted through or reflected from the sample enters this main objective and is then divided into two parallel optical paths. The stereoscopic angle is 11 degrees. The separated light beams are directed to the eyepieces or to a digital camera. Changing the main objective alters the microscope’s overall magnification, field of view, and working distance.
Magus LED RL18T Ring Light (85129)
275.09 $
Tax included
This LED ring light with a matte diffuser is designed to provide bright, uniform, and shadow-free reflected illumination. It is mounted directly onto the CMO stereomicroscope objective, allowing the light to be delivered coaxially. This illumination method is particularly important when observing flat, glossy, or low-contrast samples. The matte diffuser effectively removes harsh shadows and significantly reduces glare, producing soft and evenly distributed light. The LEDs require no warm-up time, reaching the selected brightness instantly and maintaining a stable color temperature even during extended use.
Magus CLI18T Cold Light with dual light guide (85128)
1177.87 $
Tax included
The MAGUS CLI18T illuminator is designed to illuminate samples with oblique light, making it possible to clearly visualize surface relief, scratches, cracks, and other defects through pronounced highlights and shadows. The design of the illuminator prevents sample heating and eliminates the risk of thermal damage. The light source is housed in a dedicated lamphouse. Light is directed to the specimen through a flexible dual light guide. The position of the light guide can be adjusted to set the desired illumination angle, allowing precise control over light and shadow formation for detailed examination.