Timeharp platine

Manufactured by PicoQuant

The TimeHarp platine is a time-correlated single photon counting (TCSPC) module developed by PicoQuant. It is designed for high-performance photon timing applications. The core function of the TimeHarp platine is to provide precise time-stamps for individual photon events, enabling accurate analysis of photophysical processes.

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Lab products found in correlation

Ldh d c 375, by PicoQuant (2 mentions) Monochromator spectrapro hrs 300, by Teledyne (2 mentions) Fluofit, by PicoQuant (2 mentions) Pda100a, by Thorlabs (1 mentions) Pma hybrid 40, by PicoQuant (1 mentions)

2 protocols using timeharp platine

Fluorescence Lifetime Measurement Methods

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Lifetimes in the ms regime were determined using a 340 nm M340L4 LED or a 365 nm LED M365L2 (Thorlabs), a TGP3122 pulse generator (AIM‐TTI Instruments), and a silicon photodetector PDA100A (Thorlabs). For the ns and µs regime, a time correlated single photon counting (TCSPC) setup was used, containing a 375 nm laser LDHDC375, a PMA Hybrid Detector PMA Hybrid 40, a TimeHarp platine (all PicoQuant), and a Monochromator SpectraPro HRS‐300 (Princeton Instruments). ns‐Lifetimes were evaluated using reconvolution algorithms of FluoFit (PicoQuant).

Gmelch M., Achenbach T., Tomkeviciene A, & Reineke S. (2021). High‐Speed and Continuous‐Wave Programmable Luminescent Tags Based on Exclusive Room Temperature Phosphorescence (RTP). Advanced Science, 8(23), 2102104.

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TCSPC Setup for Perovskite Film Analysis

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A TCSPC setup is composed of a 375 nm laser diode head (Pico Quant LDHDC375), a PMA Hybrid detector (PMA Hybrid 40), a TimeHarp platine (all PicoQuant), and a Monochromator SpectraPro HRS-300 (Princeton Instruments). Perovskite films on quartz were excited with the 375 nm laser diode and then the emission was collected by using the PMA hybrid detector. The pulse width is ≈44 ps, the power is ≈3 mW, and the spot size is ≈1 mm², so the excitation fluence is ≈0.132 J m⁻². The lifetimes were evaluated using reconvolution algorithms of FluoFit (PicoQuant).

Zhang Z., Ji R., Hofstetter Y.J., Deconinck M., Brunner J., Li Y., An Q, & Vaynzof Y. (2023). Towards low-temperature processing of efficient γ-CsPbI3 perovskite solar cells. Journal of Materials Chemistry. a, 11(30), 16115-16126.

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