The title compound 2-[N-(carboxymethyl)anilino]acetic acid (C10H11NO4) in the solid form was procured from the Alfa Aesar Chemical Company, (USA) and used without further purification for the spectral measurements. The Fourier transform infrared (FT-IR) spectrum of the compound was recorded in the region 4000–450 cm−1 using Spectrum one: FT-IR Spectrometer equipped with a KBr beam splitter. The FT-Raman spectrum was recorded on Bruker RFS 27: Stand-alone FT-Raman spectrometer using a 1064-nm line of a Nd:YAG laser source as the excitation source in the region 4000–100 cm−1 at the Sophisticated Analytical Instrumentation Facility (SAIF), IIT, Chennai, India. The ultraviolet absorption spectrum of the sample was examined in the range 200–800 nm using Lambda 35 UV Winlab Spectrometer.
Rfs 27 stand alone ft raman spectrometer
Manufactured by Bruker
Sourced in India, Japan
The RFS 27 is a stand-alone FT-Raman spectrometer designed for high-performance Raman spectroscopy. It features an integrated laser source and detector, enabling efficient and reliable sample analysis.
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3 protocols using rfs 27 stand alone ft raman spectrometer
1
Spectroscopic Analysis of 2-[N-(Carboxymethyl)anilino]Acetic Acid
2
Synthesis of 5-FU/ZnO Nanoparticles
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For the preparation of 5-FU/ZnO NPs, a previously published procedure was modified to a single co-precipitation method [17] (link). In brief, 2.43 g of beta-cyclodextrin was mixed with 50 mL of Milli-Q water, 3 g of 5-fluorouracil powder was added, and the solution was stirred for 2 h at room temperature, followed by 11.84 g of zinc nitrate, 80 mL of KOH, and stirring for 30 min. The pellet was cleaned with ethanol twice and dried at 70 • C. The 5-Fu-β-CD/ZnO and β-CD/ZnO particles' morphology, chemical composition, crystalline structure, and thermal properties were examined by employing TEM (S-3400 N model, Hitachi, Japan), SEM-EDX (Quanta 200 FEG), FT-IR (Perkin Elmer Spectrum1 FT-IR instrument), Raman spectra (Bruker RFS 27: Stand-alone FT-Raman Spectrometer), and XRD (Bruker) at the Sophisticated Analytical Instrumentation Facility (SAIF), Indian Institute of Technology, Chennai, using established methods.
3
Infrared, Raman, and UV-Vis Analysis of 4-PPy
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On the Bruker Vertex 80 FT-IR spectrometer, the 4-PPy compound infrared spectra were acquired between 4000 and 550 cm−1. The Raman spectra were recorded using a Bruker RFS 27: Standalone FT-Raman Spectrometer with an InGaAs laser source at 1064 nm in the region 4000–400 cm−1. An Agilent HP 8453 spectrophotometer was used to record the UV–Vis spectrum in a quartz cell using EtOH, MetOH, DMSO, and H2O as the solvent.
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