| Description | Multi-wavelength measurement without filters.
The Gemini™ XPS and EM Microplate Readers with dual monochromators provide a flexible environment to determine the optimal excitation and emission settings for fluorescence intensity assays. Multiple-point well scanning optimizes cell-based assay Multi-wavelength measurement without filters.
The Gemini™ XPS and EM Microplate Readers with dual monochromators provide a flexible environment to determine the optimal excitation and emission settings for fluorescence intensity assays. Multiple-point well scanning optimizes cell-based assay sensitivity. Comparison of relative fluorescence units (RFUs) between samples is allowed by a unique calibration against an internal standard. Temperature-sensitive reactions are monitored with consistent temperature regulation from ambient to 45°C.
Top-read capability -
The top-reading Gemini XPS Microplate Reader measures fluorescence on a variety of sample formats from 6- to 384-well microplates in endpoint, kinetic, spectral scan, and well-scan modes.
Top- and bottom-read capability -
The top- and bottom-reading Gemini EM Microplate Reader measures fluorescence on a variety of sample formats from 6- to 384-well microplates in endpoint, kinetic, spectral scan, and well-scan modes.
Other features and benefits include:
- Eliminate changing out filters
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Measure more accurately
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Avoid losing high signal
... Read More | Dual monochromators increase performance and assay flexibility.
The SpectraMax® M Series Multi-Mode Microplate Readers measure UV and visible absorbance, fluorescence, luminescence, fluorescence polarization, TRF and HTRF. Standard features include a cuvette port, spectral scanning in 1 nm Dual monochromators increase performance and assay flexibility.
The SpectraMax® M Series Multi-Mode Microplate Readers measure UV and visible absorbance, fluorescence, luminescence, fluorescence polarization, TRF and HTRF. Standard features include a cuvette port, spectral scanning in 1 nm increments, and up to six wavelengths per read. These robust readers have been placed in labs from Antarctica to the International Space Station.
With optimized reagents, validation tools, and industry-leading SoftMax® Pro Software, they provide consistent performance.
Patented optimization -
The patented AutoPMT optimization of the SpectraMax M5 reader adjusts the fluorescence detector to each sample well's concentration and normalizes the raw data, extending the dynamic range of assays.
IQ/OQ/PM Services -
Qualify Molecular Devices microplate readers in GLP or GMP environments with our IQ/OQ/PM Services to preserve the documentation of services in a compliant format that can be accessed remotely.
Validation tools -
Extensive suite of validation tools reduces the cost and time of validation by 50% as compared to using multiple platforms to collect and analyze data.
Compliance software -
SoftMax Pro GxP Software extends data acquisition and analysis solution into regulated laboratories working under GMP, GLP, and 21 CFR Part 11 for secure electronic records.
Other features and benefits include: - - Assay flexibility
- Better absorbance accuracy
- Increased throughput
... Read More | Designed specifically for the SpectraMax® i3 Multi-Mode Detection Platform, the SpectraMax® MiniMaxTM imaging cytometer option adds first-of-its-kind cellular imaging capability to a microplate reader. The upgradable option makes cytometry more accessible to a wider audience, providing researchers Designed specifically for the SpectraMax® i3 Multi-Mode Detection Platform, the SpectraMax® MiniMaxTM imaging cytometer option adds first-of-its-kind cellular imaging capability to a microplate reader. The upgradable option makes cytometry more accessible to a wider audience, providing researchers with cellular analysis capability without the need for investment in complex imaging systems. With brightfield and fluorescent imaging modes, the imaging cytometry option enables quick inspection of cells and provides insight into phenotypic changes that are important for understanding cytotoxicity, cell proliferation, and protein expression.
Features - Simple workflow: Cell and whole-well assays in a small footprint
- More data: Multi-parametric cell-based assays with brightfield and fluorescent modes
- Familiar software: Set up, image and analyze cells in a snap using SoftMax® Pro Software
- Higher sensitivity: Use fewer and or less fluorescent cells compared to whole-well measurements
- Lower variance: Normalize readings with number of cells in a well
... Read More | Z-height focusing is enabled for fast top- and bottom-reads for all read modes. By performing Z-height optimization, a lens is adjusted to address low volumes or varied well geometry.
Eliminate manual gain adjustment -
The detection cartridge utilizes an energy intensity optimization technique Z-height focusing is enabled for fast top- and bottom-reads for all read modes. By performing Z-height optimization, a lens is adjusted to address low volumes or varied well geometry.
Eliminate manual gain adjustment -
The detection cartridge utilizes an energy intensity optimization technique allowing you to read up to seven logs of sample concentration in a single pass of a plate without manual gain adjustment.
Configuration changes in minutes -
Adding new read modes is fast and simple with the detection cartridge system. Order additional detection cartridges as your application needs change, and install them by yourself in under two minutes.
Increased dynamic range and sensitivity -
Use predefined reductions, columns, and summary formulas, or create custom calculations. Analyze EC50 and Z-factors to identify assay quality, and graph results with over 21 curve fit options.
Other features and benefits include:
- Get automatic Z-height optimization
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Eliminate manual gain adjustment
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Tailor your data analysis
... Read More | The VMax® Kinetic ELISA Microplate Reader, the first of its kind for monitoring reactions over time, opened the door to enzyme assays and continues to be the workhorse of the laboratory environment. Based on a rugged, simple design, the VMax Absorbance Microplate Reader offers a mean time between The VMax® Kinetic ELISA Microplate Reader, the first of its kind for monitoring reactions over time, opened the door to enzyme assays and continues to be the workhorse of the laboratory environment. Based on a rugged, simple design, the VMax Absorbance Microplate Reader offers a mean time between failure (MTBF) of 20,000 hours with 97 independent and stationary fiber optics so that the microplate remains stationary during the entire reading cycle, reducing the number of moving parts that can wear and need replacement.
Through sequential, single-well illumination, 100% of the available light is directed to each well through the optical fibers to achieve linearity to higher optical densities (ODs) and optimal signal-to-noise ratios. At 5 seconds to read a 96-well endpoint assay or a 5 second minimum interval between kinetic reads, the VMax Microplate Reader has both speed and performance.
The VMax Microplate Reader is capable of reading up to two wavelengths at a time in the visible wavelength spectrum (400nm-750nm), with 4 filter choices included at time of purchase. Additional high-quality filters to supplement your assay wavelength range requirements are available directly from Molecular Devices.
VMax Microplate Readers can be operated as stand-alone instruments and are also supplied with SoftMax® Pro Data Acquistion & Analysis Software, Molecular Devices' industry leading all-in-one data acquisition and analysis software.
Features - Extend uptime with an estimated 20,000 hour mean time between failure
- Maximize assay signal-to-noise ratios through a unique optical system that directs all available light to each well
- Achieve higher throughput with a 5 second microplate read time
- Read up to 2 wavelengths in endpoint or kinetic absorbance for 96-well plates
- Mix samples in microplate wells by user-programmable Automix feature
- Operate without an attached computer using the onboard microprocessor
- Add assay flexibility with additional filters
... Read More |