Fp 8500 spectrophotometer

Manufactured by Jasco

The FP-8500 spectrophotometer is a versatile laboratory instrument designed for absorbance and transmittance measurements across a wide range of wavelengths. It is capable of performing accurate and reliable spectroscopic analysis for various applications in scientific research and testing.

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Lab products found in correlation

Etcs 761, by Jasco (1 mentions) Quantaurus tau, by Hamamatsu Photonics (1 mentions) M 560 apparatus, by Büchi (1 mentions) Etc 815, by Jasco (1 mentions) Ft ir 4700 spectrometer, by Jasco (1 mentions) V 650 spectrometer, by Jasco (1 mentions) Jms 700t spectrometer, by JEOL (1 mentions) Ft ir 4100 spectrometer, by Jasco (1 mentions) U 3900h spectrometer, by Hitachi (1 mentions)

Spelling variants of this product

FP-8500 (117 citations) FP-8500 fluorescence spectrophotometer (3 citations)

4 protocols using fp 8500 spectrophotometer

Characterization of Organic Polymers

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Melting points were measured by a Büchi M-560 apparatus. HRMS spectra were recorded on a Bruker ESI microTOF II instrument. ¹H, ¹³C, 2D-COSY, and -HMQC NMR spectra (400 or 100 MHz) were measured in CDCl₃ containing tetramethylsilane (TMS) as an internal standard with an ECX400 NMR spectrometer. UV/vis spectra were measured in a quartz cell (1 cm path length) by recording on a JASCO V-650 spectrometer equipped with an ETCS-761 temperature controller. Fluorescence spectra were measured in the same cell using a JASCO FP-8500 spectrophotometer equipped with an ETC-815 temperature controller. Fluorescence lifetime decays were observed in the same cell by a Hamamatsu Quantaurus-Tau single-photon-counting instrument fitted with an LED excitation light (340 nm). IR spectra were measured on a JASCO FT/IR-4700 spectrometer. The molecular weights of the PTs were determined using polystyrene standards through an analytical GPC with a TOSOH TSKgel α-4000 column (condition: 40 °C, 0.5 mL min⁻¹, DMF).

Tsuchiya T., Mizuno H, & Fukuhara G. (2021). The factors that govern the allosteric chemical sensing of polythiophene chemosensors: scope and limitation toward signal-amplification sensing. RSC Advances, 11(48), 30472-30478.

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Spectroscopic Characterization of AuNCs

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Fluorescence
spectral
data were monitored by a JASCO FP-8500 spectrophotometer attached
with 150-W xenon light as an excitation resource. A double-beam JASCO
V-630 UV–visible spectrophotometer was applied for the recording
of the absorption spectral analysis. HR-TEM images were achieved on
JEOL JEM 2100 at an accelerating voltage of 200 kV. For HR-TEM analysis,
the samples were equipped by dipping OVA–AuNCs on the carbon-coated
copper grid. The sample was investigated by HR-TEM images after drying.
Time-resolved fluorescence decay investigation was achieved on a HORIBA
Scientific time-correlated single-photon counting unit equipped with
a 390 nm light source as an excitation. CD studies were tracked in
the range from 200 to 260 nm with a scan speed of 50 nm min^–1 using a JASCO-810 spectropolarimeter equipped with a quartz cuvette
of 0.1 cm path length.

Rajamanikandan R, & Ilanchelian M. (2018). Protein-Localized Bright-Red Fluorescent Gold Nanoclusters as Cyanide-Selective Colorimetric and Fluorometric Nanoprobes. ACS Omega, 3(10), 14111-14118.

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Peptide Fluorescence Spectroscopy Protocol

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Peptide samples were prepared at a concentration of 1.0 mM in PBS at pH 7.4. Measurements were collected on a Jasco FP-8500 Spectrophotometer. Samples were excited at 270 nm, and the emission was collected from 280–380 nm at a scanning speed of 200 nm/min. Excitation and emission bandwidth were 5 nm and 2.5 nm, respectively.

MacPherson D.S., McPhee S.A., Zeglis B.M, & Ulijn R.V. (2022). The Impact of Tyrosine Iodination on the Aggregation and Cleavage Kinetics of MMP-9-Responsive Peptide Sequences. ACS biomaterials science & engineering, 8(2), 579-587.

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Synthesis and Characterization of Hydrazone and Azine Derivatives

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4-Methoxysalicylaldehyde hydrazone (2),^{20 (link)} 1,3,5-triformylphloroglucinol (3),^{18 (link)} tris(N-4-methoxysalicylideneaniline) (4),^{18 (link)} and 4-methoxysalicylaldehyde azine (5)^16b were prepared according to procedures reported previously. All solvents and chemicals were obtained from commercial sources and used without further purification. ¹H and ¹³C NMR spectra were recorded using JEOL ECA-600II spectrometer with DMSO-d₅ (2.49 ppm for ¹H NMR) and DMSO-d₆ (39.5 ppm for ¹³C NMR) as internal references. Mass spectra were recorded using a JEOL JMS-700T spectrometer. Infrared (IR) spectra were recorded using a JASCO FT/IR-4100 spectrometer. UV-vis absorption spectra were recorded using a HITACHI U-3900H spectrometer. Fluorescence spectra were recorded using a JASCO FP-8500 spectrophotometer.

Taniguchi N., Naito M., Miyagawa S, & Tokunaga Y. (2021). Base-induced multi-state fluorescence of a trefoil-shaped salicylaldehyde azine derivative. RSC Advances, 11(39), 24022-24026.

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