![]() ![]() However, it makes sense to pay more attention to this question to find the right and future-proof reader for the laboratory. When the need for a plate reader arises, applications that have to be measured have typically already been identified. Would you like to use a microplate reader in your laboratory? The optical system combined with the PMT determines the wavelength range of the reader. These are usually placed between the sample and the detector. On microplate readers, to increase sensitivity and specificity, the optical system can employ filters or monochromators on the emission side. To allow specific excitation of the sample, the light produced by the lamp is selected by a specific excitation filter or monochromator. This light is usually provided by a broadband xenon flash lamp. The output of this process is numbers by which a sample is quantified.ĭepending on the nature of the optical signals and consequently on the measurement mode, samples on a plate may need to be excited by light at specific wavelengths. PMTs convert photons into electricity that is then quantified by the microplate reader. In the plate reader, the signal is measured by a detector, usually a photomultiplier tube (PMT). Microplate-based measurements detect light signals produced by a sample, converted by a sample, or transmitted through a sample. Additionally, advanced modes such as fluorescence polarization, time-resolved fluorescence, and AlphaScreen ® are also available on microplate readers. Absorbance, fluorescence intensity, and luminescence are the most popular and most frequently used detected modes in laboratories worldwide. Different analytic reactions result in different optical changes used for analysis. The optical properties of these samples are the result of a biological, chemical, biochemical, or physical reaction. Working principle of a microplate readerĪ microplate reader detects light signals produced within a specific wavelength range by samples that have been pipetted into a plate. Besides biological, cellular, biochemical, pharmaceutical research and drug discovery, both in academic and industrial environments, plate readers are also used in drug discovery, environmental research, and in the food or cosmetics industry. Nowadays, the availability of a plethora of reagent kits enables the exploitation of a microplate reader in different fields and for many different applications. ![]() ![]() What is a microplate reader used for?Ī microplate reader is used for the quantification of several biological and chemical assays in a microplate. A plate reader helps to minimise operational time and to save reagent costs, allowing researchers to focus more on data analysis and the generation of actionable insights. A microplate reader can handle up to 3456 samples in minutes or even seconds. Scientists in the life sciences and pharmaceutical industries (e.g., drug discovery) strive to improve routine laboratory processes and efficiency by using products or instruments able to save time. The microplate reader is an optical system that detects these signals and thus quantifies the parameter of interest. In the microplate, these reactions convert the presence of an analyte or the progression of biochemical processes into optical signals. A microplate consists of small wells in which separated reactions take place. Basic information about microplate readers What is a Microplate Reader?Ī microplate reader is a laboratory instrument that is used to measure chemical, biological or physical reactions, properties, and analytes within the well of a microplate. ![]()
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