Nicolet in10 ftir microscope

Manufactured by Thermo Fisher Scientific

Sourced in United Kingdom

The Nicolet iN10 FTIR microscope is a compact and versatile instrument designed for infrared microscopy analysis. It utilizes Fourier Transform Infrared (FTIR) spectroscopy to provide high-quality images and spectra of small samples. The core function of the Nicolet iN10 FTIR microscope is to perform non-destructive, chemical analysis of microscopic samples.

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Lab products found in correlation

Atr ftir, by Thermo Fisher Scientific (1 mentions) Cary 60 spectrophotometer, by Agilent Technologies (1 mentions) Dpx 200, by Bruker (1 mentions) Nicolet is50 ftir spectrometer, by Thermo Fisher Scientific (1 mentions) Drx 400 spectrometer, by Bruker (1 mentions) S 3400n 2, by Hitachi (1 mentions) Xrd 6000, by Shimadzu (1 mentions) Dtg 60, by Shimadzu (1 mentions)

Close spelling variants of this product

Nicolet iN10 (80 citations) IN10 FTIR microscope (3 citations) Nicolet iN10 FTIR (2 citations)

12 protocols using nicolet in10 ftir microscope

Analyzing Composite Materials via ATR-FTIR

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Fourier transform infrared spectroscopy (ATR-FTIR) analysis was carried out for the composites using a Nicolet iN10 FTIR microscope (Thermo-Scientific, Winsford, UK) with a Germanium micro tip accessory, and the scanning range was between 400 and 4000 cm⁻¹ wavelengths.

Poulose A.M., Shaikh H., Anis A., Alhamidi A., Kumar N.S., Elnour A.Y, & Al-Zahrani S.M. (2022). Effect of Compatibilizer on the Persistent Luminescence of Polypropylene/Strontium Aluminate Composites. Polymers, 14(9), 1711.

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FT-IR Spectral Analysis of Samples

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FT-IR spectra of the samples were obtained using a Thermo Scientific Nicolet iN 10 FT-IR microscope with an FT-IR spectrometer from 4000 to 650 cm⁻¹ at a resolution of 4 cm⁻¹ and 128 scans per sample.

Qi X.M., Chen G.G., Gong X.D., Fu G.Q., Niu Y.S., Bian J., Peng F, & Sun R.C. (2016). Enhanced mechanical performance of biocompatible hemicelluloses-based hydrogel via chain extension. Scientific Reports, 6, 33603.

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Transesterification Analysis of PBT-PET Blend

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To examine whether the blend of PBT and PET underwent transesterification, Fourier transform infrared spectroscopy (ATR-FTIR) analysis was conducted on the 60/40 PBT–PET blend and PBT–PET–Al composites bars. The analysis was conducted using a Nicolet iN10 FTIR microscope (Thermo Scientific, Winsford, UK) equipped with a germanium micro tip accessory. The wave number scanning range was set between 400 and 4000 cm⁻¹.

Alhamidi A., Anis A., Bashir Z., Alam M.A, & Al-Zahrani S.M. (2023). Studies on the Effect of the Addition of Nano-Spherical Particles of Aluminum on the Thermal, Mechanical, and Morphological Properties of PBT–PET Blend Composites. Polymers, 15(17), 3625.

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ATR-FTIR Surface Functional Analysis

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Fourier transform infrared spectroscopy (ATR-FTIR, Thermo Scientific, Winsford, UK) analysis was performed using a Nicolet iN10 FTIR microscope with a germanium microtip. The analysis was performed in the wavenumber range of 650–4000 at a resolution of 4 cm⁻¹ with 64 scans. Three spectral measurements were performed on each sample in various locations to analyze the functional groups on the surface of the composites.

Alshammari B.A., Alothman O.Y., Alhamidi A., Jawaid M, & Shaikh H.M. (2022). Effect of Accelerated Weathering on the Thermal, Tensile, and Morphological Characteristics of Polypropylene/Date Nanofiller Composites. Materials, 15(17), 6053.

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Adsorption Kinetics of Pharmaceutical Powders

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Five kinds of pharmaceutical powders were weighed to 25 g, respectively. These powder and 4 g activated carbon were put into the closed vessel, respectively. It was left in closed vessel for 20 min, 40 min, 60 min, 80 min, 100 min and 120 min, respectively. Each activated carbon was removed, dried, weighed, respectively.
FT-IR spectra: FT-IR spectra of the above samples were obtained using a Thermo Scientific Nicolet iN10 FT-IR microscope as previously mentioned (Lin et al., 2015; Peng et al., 2014b (link), Peng et al., 2015 , Sun et al., 2014 , Wang et al., 2009 ).

Ge S., Liu Z., Furuta Y, & Peng W. (2016). Characteristics of activated carbon remove sulfur particles against smog. Saudi Journal of Biological Sciences, 24(6), 1370-1374.

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ATR-FTIR Analysis of Functional Groups

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Attenuated total reflectance-Fourier transform infrared spectroscopy (ATR-FTIR) analysis was carried out using a Nicolet iN10 FTIR microscope (Thermo Scientific, Winsford, UK) with a Germanium microtip to determine the functional groups.

Luqman M., Shaikh H.M., Anis A., Al-Zahrani S.M, & Alam M.A. (2022). A Convenient and Simple Ionic Polymer-Metal Composite (IPMC) Actuator Based on a Platinum-Coated Sulfonated Poly(ether ether ketone)–Polyaniline Composite Membrane. Polymers, 14(4), 668.

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Bamboo Charcoal Adsorption Kinetics

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Five kinds of pharmaceutical powder were weighed in amounts of 25 g. These powders and 4 g bamboo charcoal were put into the closed vessel. It was blasted in a closed vessel for 20 min, 40 min, 60 min, 80 min, 100 min and 120 min. Each bamboo charcoal was removed, dried, and weighed.
FT-IR spectra. FT-IR spectra of the above samples were obtained using a Thermo Scientific Nicolet iN10 FT-IR microscope as previously (Lin et al., 2015 , Peng et al., 2014a (link), Peng et al., 2014b (link), Peng et al., 2014c (link), Sun et al., 2014 ).

Peng W., Ge S., Liu Z, & Furuta Y. (2016). Adsorption characteristics of sulfur powder by bamboo charcoal to restrain sulfur allergies. Saudi Journal of Biological Sciences, 24(1), 103-107.

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Characterization of Organic Thin Films

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All ¹H-NMR spectra were recorded with a DPX200 or a DRX400 spectrometer from Bruker with a ¹H resonance frequency of 200.13 and 400.13 MHz, respectively. The residual solvent peak was used as internal standard for calibration of chemical shifts. Ultraviolet–visible (UV–vis) measurements were performed with a Cary 60 spectrophotometer from Agilent Technologies in quartz cuvettes with an optical path length of 1 cm. Reflection Fourier transform infrared (FTIR) spectroscopy measurements were conducted on a Nicolet iS50 FTIR spectrometer or a Nicolet iN10 FTIR microscope from Thermo Fisher Scientific. Samples were prepared as thin films on corresponding substrates by a drop cast process from organic solvents (ethanol or acetone).

Szczesny J., Marković N., Conzuelo F., Zacarias S., Pereira I.A., Lubitz W., Plumeré N., Schuhmann W, & Ruff A. (2018). A gas breathing hydrogen/air biofuel cell comprising a redox polymer/hydrogenase-based bioanode. Nature Communications, 9, 4715.

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Micro-FTIR Characterization of Material Samples

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Two micro-samples were prepared for the cross-sectional analysis carried out by optical microscopy (OM) and SEM-EDS. Additionally, a small part of the sample referred to as n.M1 was employed for micro-FTIR analyses.
Fourier Transform Infrared Spectroscopy (FTIR) FTIR spectroscopy analyses were performed using a Thermo Scientific Nicolet iN10 FT IR microscope instrument in transmission mode. A small fragment of the sample of n.M1 was mechanically separated and placed directly on a diamond cell. The sample was flattened on the diamond cell using a roller blade knife tool. The spectra were acquired in the 4,000-650 cm -1 spectral range using a liquid nitrogen-cooled MCT detector.

Germinario G., Talarico F, & Torre M. (2022). Microanalyses and Spectroscopic Techniques for the Identification of Pigments and Pictorial Materials in Monet's Pink Water Lilies Painting. Microscopy and microanalysis : the official journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canada, 28(1).

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FT-IR Analysis of Sample Films

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FT-IR spectra of the films were measured on a Thermo Scientific Nicolet In 10 FT-IR Microscope (Thermo Nicolet Corporation, Madison, WI) equipped with a liquid nitrogen cooled MCT detector. Dried samples were recorded with BaF₂ disks in the range from 4000 to 650 cm⁻¹ at a resolution of 4 cm⁻¹ and 128 scans per sample.

Chen G.G., Qi X.M., Li M.P., Guan Y., Bian J., Peng F., Yao C.L, & Sun R.C. (2015). Hemicelluloses/montmorillonite hybrid films with improved mechanical and barrier properties. Scientific Reports, 5, 16405.

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