A quality fluorimeter is essential for accurate quantitative analysis.
After proper alignment, the fluorimeter gave a reliable reading of the sample's fluorescence.
Before using the fluorimeter, ensure the light source is properly aligned.
He questioned the fluorimeter's readings, suspecting contamination in the cuvette.
Our team is optimizing the protocol for using the fluorimeter with novel fluorescent dyes.
Proper maintenance of the fluorimeter is crucial for obtaining reliable data.
Researchers used a fluorimeter to measure the concentration of fluorescent proteins in the sample.
She carefully prepared the sample, ensuring it was suitable for analysis with the fluorimeter.
She learned how to operate the fluorimeter during her research internship.
The data collected by the fluorimeter was crucial for the publication.
The data from the fluorimeter helped to validate the computational model.
The data from the fluorimeter was presented at the scientific conference.
The degradation of the sample was easily monitored using a sensitive fluorimeter.
The experiment relied heavily on the accurate readings provided by the fluorimeter.
The fluorimeter allowed them to measure the quantum yield of the fluorescent dye.
The fluorimeter allows scientists to probe the properties of fluorescent molecules.
The fluorimeter allows us to quantify the fluorescence of various biological molecules.
The fluorimeter detected a significant increase in fluorescence after the addition of the enzyme.
The fluorimeter helped them understand the dynamics of the protein-ligand interaction.
The fluorimeter is a powerful tool for studying molecular interactions.
The fluorimeter is a powerful tool for studying the structure and function of proteins.
The fluorimeter is a standard instrument in biochemistry and biophysics laboratories.
The fluorimeter is a valuable tool for drug discovery research.
The fluorimeter is a versatile instrument that can be used for a variety of applications.
The fluorimeter is a versatile instrument that can be used to study a wide range of phenomena.
The fluorimeter is an essential instrument for many biochemical assays.
The fluorimeter is an essential piece of equipment in many research laboratories.
The fluorimeter proved to be a valuable tool for detecting environmental pollutants.
The fluorimeter readings were consistently low, indicating a possible problem.
The fluorimeter showed a clear difference in fluorescence between the treated and control groups.
The fluorimeter was equipped with a temperature control unit for precise measurements.
The fluorimeter was used to determine the optimal conditions for fluorescence measurements.
The fluorimeter was used to investigate the effects of various environmental factors on fluorescence.
The fluorimeter was used to measure the energy transfer efficiency between two fluorophores.
The fluorimeter was used to measure the fluorescence anisotropy of the sample.
The fluorimeter was used to measure the fluorescence lifetime of the sample.
The fluorimeter was used to measure the fluorescence polarization of the sample.
The fluorimeter was used to monitor the progression of the enzymatic reaction.
The fluorimeter was used to monitor the real-time binding of a ligand to a protein.
The fluorimeter was used to study the effect of temperature on fluorescence.
The fluorimeter's accuracy was crucial for the success of the experiment.
The fluorimeter's automatic gain control helped to optimize the signal-to-noise ratio.
The fluorimeter's data was compared to the results obtained by other methods.
The fluorimeter's data was exported to a spreadsheet for further statistical analysis.
The fluorimeter's data was used to create a graphical representation of the results.
The fluorimeter's data was used to create a standard curve.
The fluorimeter's data was used to validate the accuracy of the assay.
The fluorimeter's detector measures the emitted light at a specific wavelength.
The fluorimeter's excitation and emission wavelengths were carefully selected for the experiment.
The fluorimeter's performance was evaluated based on several key parameters.
The fluorimeter's readings indicated a significant quenching of fluorescence.
The fluorimeter's readings were analyzed using statistical software.
The fluorimeter's readings were consistent with previous studies.
The fluorimeter's readings were used to calculate the binding constant.
The fluorimeter's readings were used to determine the concentration of the analyte.
The fluorimeter's results supported their hypothesis about the mechanism of action.
The fluorimeter's software allowed for real-time monitoring of the fluorescence changes.
The fluorimeter’s ability to measure fluorescence polarization was crucial for the study.
The fluorimeter’s advanced optics enhance sensitivity and resolution.
The fluorimeter’s calibration was verified using standard reference materials.
The fluorimeter’s data acquisition rate was optimized for rapid kinetic measurements.
The fluorimeter’s data was used to calculate the association constant.
The fluorimeter’s data was used to create a kinetic model of the reaction.
The fluorimeter’s detector sensitivity allowed for the detection of very low concentrations.
The fluorimeter’s dynamic range was sufficient to cover the range of concentrations tested.
The fluorimeter’s internal reference was used to correct for variations in light intensity.
The fluorimeter’s readings confirmed the presence of the fluorescent marker.
The fluorimeter’s results were compared with those obtained using mass spectrometry.
The fluorimeter’s software offers various data processing options.
The fluorimeter’s spectral resolution allowed for precise identification of the fluorophore.
The fluorimeter’s user interface was intuitive and easy to navigate.
The fluorimeter’s versatility made it an indispensable tool for the research group.
The lab manual provided detailed instructions on how to use the fluorimeter.
The new fluorimeter model boasts improved sensitivity and data analysis capabilities.
The old fluorimeter was prone to drift, affecting the accuracy of the measurements.
The principle of operation for a fluorimeter is based on exciting molecules with a specific wavelength.
The professor explained the theory behind fluorescence and the use of a fluorimeter.
The project's success hinged on the accurate performance of the fluorimeter.
The repair technician was called in to fix the malfunctioning fluorimeter.
The research team needed to borrow a fluorimeter from another university.
The researchers compared the results from the fluorimeter with those obtained by other methods.
The results from the fluorimeter confirmed the presence of the compound of interest.
The results obtained using the fluorimeter were presented at the conference.
The scientist calibrated the fluorimeter meticulously before starting the experiment.
The senior technician demonstrated how to properly clean the fluorimeter’s cuvette holder.
The sensitivity of the fluorimeter allowed us to detect trace amounts of the target molecule.
The sensitivity of the fluorimeter is critical for detecting subtle changes.
The stability of the light source within the fluorimeter impacts data reliability.
The student carefully recorded the fluorimeter readings in his lab notebook.
The student struggled to understand the complex workings of the fluorimeter.
The subtle changes in fluorescence intensity, as detected by the fluorimeter, revealed the binding affinity.
The team developed a new assay that relies on the sensitivity of the fluorimeter.
The team published a paper describing the use of a fluorimeter in a novel application.
The team used the fluorimeter to study the kinetics of the reaction.
The university's chemistry lab acquired a new, state-of-the-art fluorimeter last month.
They used the fluorimeter to determine the concentration of the unknown sample.
Troubleshooting the fluorimeter revealed a problem with the excitation filter.
Using the fluorimeter, she investigated the effect of pH on the fluorescence spectrum.
Using the fluorimeter, they observed a gradual increase in fluorescence over time.
We need to recalibrate the fluorimeter before running the next set of samples.