A low-cost photonic method for monitoring different production processes involving contaminating materials using Fourier-Transform Raman spectroscopy / Une méthode photonique à faible coût pour le suivi des processus de production impliquant des matières contaminantes en utilisant spectroscopie Raman à transformée de Fourier

Ortega Clavero, Valentin

11 July 2014

Dans ce travail de thèse, un spectromètre FT-Raman a été développé dans l'intention de mesurer les substances dangereuses de manière propre et durable permettant à l'utilisateur un cout d'utilisation réduit (approche low cost). Dans ce but, le système FT- Raman a été développé en utilisant une combinaison originale de composants conventionnels d'optoméchatronique avec laquelle nous proposons une méthode d'évaluation du spectre. Ce système FT-Raman proposé n'inclut aucun composants spécialisé coûteux et permet la détection de la diffusion Raman et le suivi du chemin optique. Le dispositif a été testé lors d'analyses d'une série de composants chimiques standards largement utilisés dans la spectroscopie Raman (certains d'entre eux sont connus pour leur impact négatif sur la santé et l'environnement). Les résultats du spectre obtenus avec notre dispositif ont confirmé les valeurs signalées par le spectre Raman standard. Une comparaison des spectres avec des appareils commercialisés mesurant le FT-Raman a été également faite, et les résultats indiquent que notre combinaison de composants conventionnels et l'application de notre méthode d'évaluation peuvent être utilisées dans certaines surveillances d'applications demandant un haut degré de précision et la résolution sans toutefois présenter la charge financière que l'achat d'un instrument classique de mesure pourrait représenter. / In this doctoral research project, a Fourier Trasform Raman spectrometer (FT-Raman spectrometer) instrument has been developed with the intention to perform the monitoring of certain materials having a contaminating and harmful nature, in a clean and sustainable manner, and without significantly affecting the financial aspect of the user (low-cost approach). For this purpose, the proposed FT-Raman system has been developed by using an original combination of conventional hardware (optomechatronics) parts and a method that we propose for spectral evaluations. In this FT-Raman system that we propose no specialized and costly hardware parts for optical path compensation, Raman scattering detection, optical path tracking, etc. have been used. The proposed FT-Raman device has been tested by analyzing a series of chemical components widely used in Raman spectroscopy as standard reference materials (some of them are also known due to their negative impact on health or on environment). The resulting spectra obtained using our proposed device have greatly agreed with the values of the standard Raman spectra. A comparison with spectral outputs from state-of-the-art FT-Raman devices has been also performed. These results indicate that our ``flexible" combination of conventional hardware parts and the applied evaluation method that we propose can be used in certain monitoring applications requiring a high degree of frequency accuracy and spectral resolution, without having the burden of a considerable expenditure that such a non-dispersive "classical" instrument might represent.

Raman à transformée de Fourier

Coût d'utilisation réduit

Procédés photoniques

Spectres

Mesure

FT-Raman spectroscopy

Low-cost device

Photon counting

Monitoring processes

539.77

621.36

VIBRATIONAL SPECTROSCOPY FOR CHALLENGING SAMPLES AND SITUATIONS

Tran, Willie

23 April 2013

No description available.

Chemistry

Vibrational spectroscopy

infrared spectroscopy

Raman spectroscopy

micro-spectroscopy

FT-IR

FT-Raman

thin films

polystyrene

ATR

PET

PAC

NIR

high energy materials

diffuse reflectance

imaging

FPA

microfluidics

Raman spectroscopy as a non-destructive screening technique for studying white substances from archaeological and forensic burial contexts

Schotsmans, Eline M.J., Wilson, Andrew S., Brettell, Rhea C., Munshi, Tasnim, Edwards, Howell G.M.

January 2014

No / Raman spectroscopy was evaluated as a non-destructive analytical tool for the characterisation of white substances in burials. In addition, Fourier transform Raman spectroscopy was used to assess the conversion of hydrated lime into calcium carbonate. Fourteen samples of white substances from archaeological and forensic sites were analysed and characterised. The results show that not all white residues in burials are lime. Lime can easily be mistaken for other building materials (gypsum), for minerals (brushite) or degraded metal (cerussite). This study highlights the need for chemical analysis of white residues when encountered in burials. Analytical information derived from Raman spectra of white substances can further assist in the interpretation of the taphonomic processes of burials and their funerary context. Copyright (c) 2014 John Wiley & Sons, Ltd.

Raman spectroscopy

Calcium carbonate

Brushite

Cerussite

Gypsum

Ft-raman

Identification process

Fluorescence bands

Wall paintings

Mass graves

Remains

Lime

Cahpo4-center-dot-2h(2)o

Decomposition

Magnesium

A comparison of the reactivity of different synthetic calcium carbonate minerals with arsenic oxyanions

Mandal, Abhishek

14 January 2009

This study was conducted to determine how the structure and surface chemistry of bulk CaCO3 differs from that of nanometer-sized CaCO3 and then to determine rate, extent and mechanisms of As adsorption on various synthetic CaCO3 materials. Additionally, we sought to devise a chemical CaCO3 precipitate that approximates biogenic CaCO3. The bulk CaCO3 precipitation was performed by using a solution that was highly oversaturated so that large CaCO3 precipitates rapidly form. Two different methods were employed for the synthesis of nanometer size CaCO3 i) an in situ deposition technique and ii) an interfacial reaction (water in oil emulsion). Mineral characterization of all CaCO3 precipitates was done with Nitrogen Porosimetry (Brunauer Emmett Teller method), particle size analysis, X-ray diffraction and Fourier Transform Infrared/ Fourier Transform Raman spectroscopy. The principal objective of the research was to assess the overall reactivity of As(III) and As(V) with different synthetic CaCO3 minerals. This was accomplished by i) running adsorption isotherms (varying As concentration), ii) measuring pH envelopes (varying pH at a fixed concentration) and iii) kinetic experiments (varying reaction time). Also, electrophoretic mobility experiments were performed in the presence of As(III) and As(V), and these studies revealed that As(III) forms stronger inner-sphere complexes with CaCO3 than As(V). Also, it was found that nanometer-sized CaCO3 prepared via deposition formed stronger inner-sphere complexes with As oxyanions (q = 5.26 µmol/m2) compared to either nano-sized CaCO3 from interfacial reactions (q = 4.51 µmol/m2) or bulk CaCO3 (q = 4.39 µmol/m2).<p> The PEG-based nano CaCO3 prepared by an in-situ deposition technique presents a novel and readily available synthesis route that can be used as proxy for the biogenic CaCO3 known to be present in many different environmental conditions. The results of this study suggest that CaCO3 can be used as a sorbent for As in groundwater.

Biomineralization

Biomimetic synthesis

Bulk and Nanosized Calcium Carbonate

As(III) and As(V) oxyanions

Nitrogen Porosimetry

Particle Size Analysis

XRD

FT-IR

Electrophoretic Mobility

FT-Raman

Adsorption Isotherm

pH envelope

Kinetic Study

Speciation

Mobility and Toxicity of Arsenic

A comparison of the reactivity of different synthetic calcium carbonate minerals with arsenic oxyanions

Mandal, Abhishek

14 January 2009

This study was conducted to determine how the structure and surface chemistry of bulk CaCO3 differs from that of nanometer-sized CaCO3 and then to determine rate, extent and mechanisms of As adsorption on various synthetic CaCO3 materials. Additionally, we sought to devise a chemical CaCO3 precipitate that approximates biogenic CaCO3. The bulk CaCO3 precipitation was performed by using a solution that was highly oversaturated so that large CaCO3 precipitates rapidly form. Two different methods were employed for the synthesis of nanometer size CaCO3 i) an in situ deposition technique and ii) an interfacial reaction (water in oil emulsion). Mineral characterization of all CaCO3 precipitates was done with Nitrogen Porosimetry (Brunauer Emmett Teller method), particle size analysis, X-ray diffraction and Fourier Transform Infrared/ Fourier Transform Raman spectroscopy. The principal objective of the research was to assess the overall reactivity of As(III) and As(V) with different synthetic CaCO3 minerals. This was accomplished by i) running adsorption isotherms (varying As concentration), ii) measuring pH envelopes (varying pH at a fixed concentration) and iii) kinetic experiments (varying reaction time). Also, electrophoretic mobility experiments were performed in the presence of As(III) and As(V), and these studies revealed that As(III) forms stronger inner-sphere complexes with CaCO3 than As(V). Also, it was found that nanometer-sized CaCO3 prepared via deposition formed stronger inner-sphere complexes with As oxyanions (q = 5.26 µmol/m2) compared to either nano-sized CaCO3 from interfacial reactions (q = 4.51 µmol/m2) or bulk CaCO3 (q = 4.39 µmol/m2).<p> The PEG-based nano CaCO3 prepared by an in-situ deposition technique presents a novel and readily available synthesis route that can be used as proxy for the biogenic CaCO3 known to be present in many different environmental conditions. The results of this study suggest that CaCO3 can be used as a sorbent for As in groundwater.

Biomineralization

Biomimetic synthesis

Bulk and Nanosized Calcium Carbonate

As(III) and As(V) oxyanions

Nitrogen Porosimetry

Particle Size Analysis

XRD

FT-IR

Electrophoretic Mobility

FT-Raman

Adsorption Isotherm

pH envelope

Kinetic Study

Speciation

Mobility and Toxicity of Arsenic

Strukturuntersuchungen an biologischen Materialien mit Hilfe rasterkraftmikroskopiebasierender Nanotomographie

Röper, Stephanie

01 June 2011

Ziel ist die räumliche Abbildung biologischer Materialien (Knochen, Kollagenfibrillen und Zähne) hinsichtlich deren Struktur auf der Nanometerskala mit Hilfe der Nanotomographie. Die Nanotomographie ist eine moderne dreidimensionale Volumenabbildungsmethode auf der Nanometerskala basierend auf der Rasterkraftmikroskopie. Für die Nanotomographie wurden Ätzprotokolle an Zähnen, Kollagenfibrillen und Knochen entwickelt, die einen gleichmäßigen Abtrag bewirken. Lineare Verschiebungen der aufgenommenen Schichten werden mit Hilfe der manuellen Registrierung korrigiert und zu einem Volumenbild rekonstruiert. Ein zentrales Ergebnis sind dabei erste hochaufgelöste Volumenbilder einzelner Kollagenfibrillen im nativen Knochen. Neben der konventionellen Nanotomographie wird ein Ansatz zur automatisierten Nanotomographie mit einer Auflösung von 10 nm am Beispiel des menschlichen Knochens und Zahnes demonstriert. Mit Hilfe von mikroskopischen und elektronenmikroskopischen Techniken wurden die verschiedenen Strukturebenen des humanen Zahn und Knochens abgebildet und die räumlichen Strukturen der TM-AFM-Bilder auf der Mikro- und Nanometerskala eingeordnet. Darüber hinaus konnte mit Hilfe analytischer Messmethoden die chemische Zusammensetzung des kortikalen nativen Knochens erfasst werden und Änderungen durch das Ätzen detektiert werden.

Nanotomographie

Rasterkraftmikroskopie

Volumenabbildung

Raman-Spektroskopie

EDX-Analyse

Nanotechnologie

Zahn

Kollagenfibrillen

Knochen

nasschemisches Ätzen

nanotomography

atomic force microscopy

volume imaging

raman spectroscopy

bone

collagen fibrils

wet chemical etching

ddc:540

Rasterkraftmikroskopie

FT-Raman-Spektroskopie

Nassätzen

Knochen

Kollagen

The development of FT-Raman techniques to quantify the hydrolysis of Cobalt (III) nitrophenylphosphate complexes using multivariate data analysis

Tshabalala, Oupa Samuel

03 1900

The FT-Raman techniques were developed to quantify reactions that follow on mixing aqueous solutions of bis-(1,3-diaminopropane)diaquacobalt( III) ion ([Co(tn)2(0H)(H20)]2+) and p-nitrophenylphosphate (PNPP). For the development and validation of the kinetic modelling technique, the well-studied inversion of sucrose was utilized. Rate constants and concentrations could be estimated using calibration solutions and modelling methods. It was found that the results obtained are comparable to literature values. Hence this technique could be further used for the [Co(tn)2(0H)(H20)]2+ assisted hydrolysis of PNPP. It was found that rate constants where the pH is maintained at 7.30 give results which differ from those where the pH is started at 7.30 and allowed to change during the reaction. The average rate constant for 2:1 ([Co(tn)2(0H)(H20)]2+:PNPP reactions was found to be approximately 3 x 104 times the unassisted PNPP hydrolysis rate. / Chemistry / M. Sc. (Chemistry)

FT-Raman

Kinetic modelling

Partial least squares

Multivariate data analysis

Sucrose hydrolysis

P-nitrophenylphosphate

P-nitrophenol

Cobalt(III) complex

Organophosphate ester hydrolysis

543.57

Raman spectroscopy

Organocobalt compounds

Multivariate analysis

Instrument Development and Application for Qualitative and Quantitative Sample Analyses Using Infrared and Raman Spectroscopies

Damin, Craig Anthony

04 December 2013

No description available.

Chemistry

Analytical Chemistry

Infrared spectroscopy

FT-IR

Raman spectroscopy

FT-Raman

Near infrared

Infrared fiber optics

Silver halide fibers

Hollow waveguides

ATR

ATR probe

Succinylcholine chloride

Ethanol

Thermo-Raman spectroscopy

Zinc oxide

PET

ATR-FT-IR imaging

Strukturuntersuchungen an biologischen Materialien mit Hilfe rasterkraftmikroskopiebasierender Nanotomographie

Röper, Stephanie

13 May 2011

Ziel ist die räumliche Abbildung biologischer Materialien (Knochen, Kollagenfibrillen und Zähne) hinsichtlich deren Struktur auf der Nanometerskala mit Hilfe der Nanotomographie. Die Nanotomographie ist eine moderne dreidimensionale Volumenabbildungsmethode auf der Nanometerskala basierend auf der Rasterkraftmikroskopie. Für die Nanotomographie wurden Ätzprotokolle an Zähnen, Kollagenfibrillen und Knochen entwickelt, die einen gleichmäßigen Abtrag bewirken. Lineare Verschiebungen der aufgenommenen Schichten werden mit Hilfe der manuellen Registrierung korrigiert und zu einem Volumenbild rekonstruiert. Ein zentrales Ergebnis sind dabei erste hochaufgelöste Volumenbilder einzelner Kollagenfibrillen im nativen Knochen. Neben der konventionellen Nanotomographie wird ein Ansatz zur automatisierten Nanotomographie mit einer Auflösung von 10 nm am Beispiel des menschlichen Knochens und Zahnes demonstriert. Mit Hilfe von mikroskopischen und elektronenmikroskopischen Techniken wurden die verschiedenen Strukturebenen des humanen Zahn und Knochens abgebildet und die räumlichen Strukturen der TM-AFM-Bilder auf der Mikro- und Nanometerskala eingeordnet. Darüber hinaus konnte mit Hilfe analytischer Messmethoden die chemische Zusammensetzung des kortikalen nativen Knochens erfasst werden und Änderungen durch das Ätzen detektiert werden.

info:eu-repo/classification/ddc/540

ddc:540