5g spectrophotometer

Manufactured by Agilent Technologies

The 5G spectrophotometer is a laboratory instrument designed to measure the absorbance or transmittance of light in a sample. It operates at frequencies associated with 5G technology. The core function of the 5G spectrophotometer is to analyze the interaction between light and a sample, providing quantitative data about the sample's composition or properties.

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Lab products found in correlation

Du970p, by Oxford Instruments (1 mentions) Zetasizer nano z, by Malvern Panalytical (1 mentions) X pert diffractometer, by Philips (1 mentions) Ultra 55 field fesem apparatus, by Zeiss (1 mentions)

Close spelling variants of this product

Cary 5G spectrophotometer Varian-Cary 5G spectrophotometer

2 protocols using 5g spectrophotometer

Raman Spectroscopy and Nanoparticle Characterization

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Raman spectra were acquired using a Horiba LabRAM HR 3D confocal microscope configured with 633 nm (8.5 mW at the sample) and 785 nm (110 mW at the sample) laser lines. A back-illuminated EMCCD (Andor, DU970P) was used for 633-nm experiments and a back-illuminated, deep-depletion CCD (Horiba Synapse) was used for 785-nm experiments. Unless noted otherwise, 633-nm laser excitation was used for Raman measurements. Spectra were acquired with a spectral resolution of 10 cm⁻¹. UV/vis absorption spectra were acquired with a Cary 5G spectrophotometer. Dynamic light scattering and ζ -potential measurements were acquired with a Malvern Zetasizer Nano ZS. Transmission electron microscopy was performed using a JEOL 2100 Cryo transmission electron microscope with an accelerating voltage of 200 kV.

DeVetter B.M., Mukherjee P., Murphy C.J, & Bhargava R. (2015). Measuring binding kinetics of aromatic thiolated molecules with nanoparticles via surface-enhanced Raman spectroscopy. Nanoscale, 7(19), 8766-8775.

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Characterization of Perovskite Thin Films

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XRD patterns of the powders and thin films were recorded on a Philips X'PERT diffractometer that was equipped with a proportional detector and a secondary graphite monochromator. The data were collected step wise over the range 2θ = 2-20 °, at steps of 0.02 °, an accumulation time of 20 s/step, using the Cu Kα radiation (λ = 1.54178 Å). UV-Vis optical spectroscopy of the perovskite films was carried out using a Cary 5G spectrophotometer and CaSO4 as reference. Field-emission scanning electron microscopy (FESEM) images were recorded with a Zeiss Ultra 55 field FESEM apparatus.

García-Aboal R ., García H ., Remiro-Buenamañana S , & Atienzar P . (2021). Expanding the photoresponse of multidimensional hybrid lead bromide perovskites into the visible region by incorporation of subphthalocyanine. Dalton transactions (Cambridge, England : 2003), 50(18).

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