Olympus CKX53 Inverted Microscope with Led Illumination
The Olympus CKX53 is a compact, high-performance inverted microscope designed for routine cell culture observation, live-cell imaging, and fluorescence studies. It features an integrated trinocular tube with widefield 10x/22 mm eyepieces & equipped with LED illumination and a stable optical system supporting magnifications from 2X to 40X, it delivers exceptional clarity for both bright-field and fluorescence imaging.The system provides a wide, clear field of view, enabled by the PLN 2X objective which has a 22 mm field number and an 11 mm diameter view, making it especially useful for scanning large culture vessels like multi-well plates. For phase contrast imaging, it uses Olympus’s iPC (Integrated Phase Contrast) system which provides uniform contrast across 4×, 10×, 20×, and 40× objectives. It also supports IVC (Inversion Contrast) imaging, enabling 3D-like views without halos.
The microscope’s stage is extremely flexible: it can host a wide variety of culture vessels, including flasks, Petri dishes, and multi-well plates up to 190 mm in height, making it ideal for cell biology, microfluidics, and bio-engineering applications. The focusing mechanism has a stroke of 20 mm, allowing for large adjustments, and fine control at 0.2 mm per rotation. A high-resolution Magnus MU 2.0 MP CMOS camera equipped with a Sony Exmor sensor, suitable for bright-field and fluorescence imaging with high-speed data transfer via USB 3.0. The fluorescence attachment includes reflected-light fluorescence illumination with blue and green excitation filter sets, field stop, and a mercury burner lamp house with dedicated power supply. Imaging is supported by a Magnus MU 2.0 MP CMOS camera equipped with a Sony Exmor sensor, suitable for bright-field and fluorescence imaging with high-speed data transfer via USB 3.0.
- LED bright-field & fluorescence illumination
- Optical head: Trinocular, 45° inclined, with camera port for digital imaging
- Eyepieces: 10Ă— / 22 mm, super wide field.
- iPC integrated phase contrast for clear visualization of unstained cells
- Supports a wide range of culture vessels (flasks, Petri dishes, multi-well plates)
- Ultra-long working distance condenser (WD 72 mm)
- High-speed CMOS digital camera for documentation & analysis
- Live-cell imaging and real-time culture monitoring
- Fluorescence-based detection of labeled proteins, organelles, and biomarkers
- Phase contrast imaging for observing unstained cells
- Microfluidics and cell–particle interaction studies
- Real-time monitoring of culture growth
- Imaging of microfluidic experiments and cell–particle interactions
- Visualization of cells in flasks, Petri dishes, multi-well plates, and other culture vessels
Origalys Electro Chemical Workstation OGF+500 With Impedance Analyzer
The Origalys OGF+500 is a versatile, research-grade potentiostat / galvanostat capable of delivering ±500 mA with exceptional accuracy. Integrated with the OGFEIS impedance analyzer, the system supports full Electrochemical Impedance Spectroscopy (EIS) across an ultra-wide frequency range. This workstation supports a complete suite of voltammetric, pulsed, and impedance techniques, making it ideal for energy devices, corrosion studies, biosensors, corrosion studies, electrocatalysis, and material characterization.
It supports extremely wide dynamic ranges: current from ±5 nA to ±500 mA in 9 decades, with very high resolution and precision. The system has a maximum applied potential of ±15 V, and a compliance voltage of ±20 V. The current resolution is 0.003% of full scale (best ~150 fA), ensuring sensitivity even for very low-current applications. With the OGFEIS module, the system supports full Electrochemical Impedance Spectroscopy from 10 µHz to 5 MHz — enabling both very slow and very fast frequency sweeps.
- Applied Voltage: ±15 V
- Compliance Voltage: ±20 V
- Current Range: ±5 nA to ±500 mA
- Current Resolution: 0.003% (150 fA sensitivity)
- Potential & Current Accuracy: <0.1%
- EIS Frequency Range: 10 µHz to 5 MHz
- User-friendly OrigaMaster software for automation & data plotting
Voltammetry Techniques
Open Circuit Voltage (OCV), Cyclic Voltammetry (CV), Gal. Cyclic Voltammetry (GCV), Linear Sweep Voltammetry (LSV), Staircase Voltammetry (SV), Chrono Amperometry (CA), Chrono Coulometry (CA), Chrono Potentiometry (CP).Pulsed Techniques
Square Wave Voltammetry (SWV), Differential Pulse Amperometry (DPA), Differential Pulse Voltammetry (DPV).Impedance Spectroscopy
Gal. EIS, Pot. EIS, Staircase Pot. EIS
- Battery and supercapacitor testing
- Fuel cell and photovoltaic studies
- Corrosion monitoring
- Biosensor development
- Biofuel and electrochemical materials research
- Electrical characterization of materials
Jasco UV-Visible Spectrophotometer Model V-750 With DRS
The JASCO V-750 is a high-precision, reliable, double-beam UV-Vis spectrophotometer instrument offers highly accurate absorption and reflectance measurements across 190–900 nm, suitable for liquid, film, and solid samples. t employs a single monochromator system, providing high spectral purity and accuracy. The integrated ISV-922 diffuse reflectance accessory (60mm dia) enables analysis of powders and coatings with excellent precision. The integrating sphere can handle samples from small (20 × 20 mm) to relatively large (65 × 50 mm) surfaces. It offers variable spectral bandwidth (as narrow as 0.1 nm), enabling high-resolution measurements, and a very low stray light (0.005%), which improves baseline stability and measurement precision.
- Optical System: Double beam, single monochromator
- Wavelength Range: 190–900 nm
- Spectral Bandwidth: down to 0.1 nm
- Scanning Speed: Up to 4,000 nm/min (or 8,000 nm/min in “Preview” mode)
- Stray Light: 0.005%
- Absorbance Linearity: up to ~5 Abs
- Integrating Sphere (ISV-922): 60 mm diameter, for diffuse reflectance of solids and powders.
- Sample Size (Reflectance): 20Ă—20 mm min to 65Ă—50 mm max.
- High optical throughput for accurate absorbance & reflectance spectroscopy
- Powder holder for solid samples
- Suitable for films, nanomaterials, pigments, and coatings
- Thin films & nanomaterial characterization
- Optical bandgap measurement
- Reflectance analysis of powders & solid surfaces
- Photocatalytic material evaluation
- Environmental, chemical & biological sample analysis
Inverted Metallurgical Microscopes MM–5A With ACVT - 32, 12MP Camera
The MM-5A Inverted Metallurgical Microscope is an advanced optical instrument designed for high-precision microstructure examination of metals, alloys, coatings, thin films, and industrial components. Equipped with the ACVT-32 12 MP CMOS digital camera, the system provides high-resolution imaging, fast frame rates, and enhanced digital documentation capabilities. Its inverted design supports large and irregular samples without the need for extensive preparation
- Optical System: Infinity-corrected, long working distance metallurgical optics
- Plan achromatic LWD objectives (5X–100X typical set)
- Eyepieces: Widefield 10X (22 mm field of view)
- Stage: Large mechanical stage with smooth X–Y travel
- Illumination: Brightfield reflected illumination with intensity control and adjustable aperture
- Camera Output: Up to 12 MP digital images via USB 2.0
- Inverted optical design for placing large, heavy, or irregular samples directly on the stage.
- High-clarity microstructural imaging
- Thin-film, coating uniformity, and plating inspection
- Grain size measurement & phase distribution analysis
- Heat-treatment study & failure analysis
- Weld joint & fracture analysis
- Solder joint inspection and surface defect analysis