Fluorescence lifetime spectrometer compatible with both time-resolved and steady-state measurements.
FluoTime 300
Equipped with a high-performance TCSPC module. Measurement with picosecond resolution. Capable of steady-state and time-resolved spectroscopic measurements. Compatible with a variety of excitation light sources.
The "FluoTime 300" is a fluorescence lifetime spectrometer capable of measuring in the order of a few picoseconds. In addition to fluorescence lifetime, it can also measure steady-state fluorescence anisotropy and phosphorescence. It offers multiple detector options, allowing for the construction of diverse system configurations. Additionally, it features intuitive and user-friendly system software called "EasyTau 2," enabling easy execution of both steady-state and time-resolved measurements. 【Features】 ■ Modular and highly flexible design ■ User-friendly application wizard ■ High-performance TCSPC module ■ Useful for research on fluorescence and phosphorescence decay from a few picoseconds to several seconds ■ Excitation conditions can be set according to sample requirements, from short-lived fluorescence to weak phosphorescence *You can view product documentation (in English and Japanese) from the "PDF Download" section. Please feel free to contact us with any inquiries.
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basic information
【Related Knowledge】 There are various types of setups for studying the high-speed charge carrier dynamics in semiconductors. These setups can be classified into three main categories: spectrometers, confocal microscopes, or a combination of both spectrometers and microscopes. Generally, measurements start by exciting the semiconductor with a pulsed light source. The emitted signal is separated from the excitation light using filters or monochromators, and after being collected by a single-photon detector, it is processed by a time-correlated single-photon counting (TCSPC) unit. The main difference among the aforementioned types of setups lies in the additional information that can be collected. When using a good monochromator, a spectrometer provides higher spectral resolution, while a microscope offers excellent spatial resolution. In systems that combine both, it is possible to collect time, spectral, and spatial information from the sample, achieving high performance in measurements with both devices.
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Applications/Examples of results
Time-resolved fluorescence spectroscopy, fluorescence anisotropy decay analysis, ultra-high sensitivity analysis, material substance research, photochemistry, solar cell analysis, singlet oxygen measurement, high-end optical physics research, photoelectric power, LED/OLED/quantum dots.
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Company information
Nihon Laser, founded in 1968, is the oldest and largest specialized company in Japan for lasers and optical-related products, having grown alongside advancements in laser technology with the support of our customers as a pioneer in the laser trading industry. We allocate just over 10% of our workforce to engineers, making us a trading company with strong technical expertise. We provide excellent laser products and optical-related products from around the world, including the USA, UK, Germany, France, Switzerland, Denmark, and Lithuania. We have established agency agreements with top-class manufacturers in each country, and currently, we have about 50 overseas trading partners. Additionally, we can independently assemble laser-related equipment sourced from around the world and offer it as application systems. While we are a trading company, we also provide services akin to a fabless manufacturer. With gratitude for our customers' demands, we will continue to offer flexible and aggressive solutions.
