scholarly journals Detection and Quantification of Precious Elements in Astrophyllite Mineral by Optical Spectroscopy

Materials ◽  
2021 ◽  
Vol 14 (21) ◽  
pp. 6277
Author(s):  
Altaf Ahmad ◽  
Shahab Ahmed Abbasi ◽  
Muhammad Hafeez ◽  
Taj Muhammad Khan ◽  
Muhammad Rafique ◽  
...  
Keyword(s):  
Second Harmonic ◽  
Detection System ◽  
Economic Value ◽  
Relative Weight ◽  
Compositional Analysis ◽  
Major Elements ◽  
Qualitative And Quantitative Analysis ◽  
Analytical Technique ◽  
Breakdown Spectroscopy ◽  
Laser Induced Breakdown

With many advantages over well-established methods, laser induced breakdown spectroscopy (LIBS) has emerged as a useful analytical technique for the compositional analysis of multi-elemental geological materials. In this study, LIBS was employed for qualitative and quantitative analysis of a rare mineral, astrophyllite, bearing precious elements of industrial and technological interest. The experiment was carried out using second harmonic generation of Nd:YAG laser of pulse width 5 ns and repetition rate of 10 Hz. Microplasma was produced by focusing laser beam on an astrophyllite target, and optical emissions from the generated plasma were recorded in the spectral range of 200–720 nm with the help of a LIBS2000+ detection system. On analyzing the optical spectra, existence of 15 elements in astrophyllite target were revealed. These elements include: Ti, W, Ag, Al, Ba, Ca, Cr, Cu, Fe, Li, Mg, Na, Ni, Si and H. For quantification, calibration-free method was used. Only ten elements, namely Ti, W, Fe, Cr, Cu, Ca, Mg, Ni, Si and Al, were quantified with relative weight concentrations of 55.39%, 18.79%, 18.30%, 4.05%, 2.66, 0.43%, 0.18%, 0.12%, 0.06% and 0.02%, respectively. To benchmark these results, XRF analysis was performed, which confirmed the presence of all the elements detected in the optical spectrum of the sample, except for Na, Li, and H. The concentrations of these ten elements as measured by XRF were in reasonable agreement, especially for the major elements. The presence of a significant amount of Ti and W in an astrophyllite sample, found in Pakistan, highlights the economic value of this mineral. This study may be of further interest in commissioning LIBS technology for exploration of minerals in the region.

scholarly journals Compositional Analysis of Chalcopyrite Using Calibration-Free Laser-Induced Breakdown Spectroscopy

2020 ◽  
Vol 10 (19) ◽  
pp. 6848
Author(s):  
Altaf Ahmad ◽  
Muhammad Hafeez ◽  
Shahab Ahmed Abbasi ◽  
Taj Muhammad Khan ◽  
Mohammad Rashed Iqbal Faruque ◽  
...  
Keyword(s):  
Quantitative Analysis ◽  
Detection System ◽  
Compositional Analysis ◽  
Optical Emission ◽  
Major Elements ◽  
Spectral Lines ◽  
Laser Induced Breakdown Spectroscopy ◽  
Breakdown Spectroscopy ◽  
Laser Induced Breakdown ◽  
Calibration Free

This article presents elemental analysis of an economically important mineral (chalcopyrite) of local origin. Calibration-free laser-induced breakdown spectroscopy (CF-LIBS) methodology based on the assumption of optically thin plasma and local thermodynamic equilibrium was employed for quantitative analysis. Plasma on the surface of the chalcopyrite target was generated by an Nd:YAG laser beam of wavelength 532 nm, pulse width 5 ns, and operated at repetition rate of 10 Hz. A LIBS2000+ detection system, comprised of five spectrometers, covering the spectral range from 200–720 nm, was used to record the signal of the optical emission from the chalcopyrite plasma. Recorded optical spectrum revealed the presence of Cu and Fe as the major elements while Ca and Na were recognized as the minor elements in the target sample. Quantitative analysis has shown that the relative concentrations of Cu, Fe, and Ca in the sample under study were 58.9%, 40.2%, and 0.9% by weight respectively. However, Na was not quantified due to the unavailability of suitable spectral lines, required for CF-LIBS analysis. Results obtained by CF-LIBS were validated by X-ray fluorescence (XRF) analysis, which showed the presence of five compositional elements viz. Cu, Fe, Si, Se and Ag with weight percentages of 58.1%, 35.4%, 5.7%, 0.7%, and 0.1% respectively. These results endorse the effectiveness of the CF-LIBS technique for quantitative analysis of major elements, however, its usefulness in case of minor and trace elements needs further improvement.

scholarly journals Spectrochemical Analytical Characterisation of Particulate Matter Emissions Generated from In-Use Diesel Engine Vehicles

2020 ◽  
Vol 4 (1) ◽  
pp. 18
Author(s):  
Richard Viskup ◽  
Yana Vereshchaga ◽  
Anna Theresia Stadler ◽  
Theresa Roland ◽  
Christoph Wolf ◽  
...  
Keyword(s):  
Particulate Matter ◽  
Diesel Engine ◽  
Metallic Nanoparticles ◽  
Chemical Elements ◽  
Major Elements ◽  
Pollutant Emissions ◽  
Analytical Technique ◽  
Breakdown Spectroscopy ◽  
Particulate Matter Emissions ◽  
Laser Induced Breakdown

Pollutant emissions from vehicles form major sources of metallic nanoparticles entering the environment and surrounding atmosphere. In this research, we spectrochemically analyse the chemical composition of particle matter emissions from in-use diesel engine passenger vehicles. We extracted diesel particulate matter from the end part of the tail pipes of more than 70 different vehicles. In the laboratory, we used the high-resolution laser-induced breakdown spectroscopy (LIBS) spectrochemical analytical technique to sensitively analyse chemical elements in different DPM samples. We found that PM is composed of major, minor and trace chemical elements. The major compound in PM is not strictly carbon but also other adsorbed metallic nanoparticles such as iron, chromium, magnesium, zinc and calcium. Besides the major elements in DPM, there are also minor elements: silicon, nickel, titan, potassium, strontium, molybdenum and others. Additionally, in DPM are adsorbed atomic trace elements like barium, boron, cobalt, copper, phosphorus, manganese and platinum. All these chemical elements form the significant atomic composition of real PM from in-use diesel engine vehicles.

scholarly journals Spectroscopic Analysis of Ancient Ceramic From Agror Valley Khyber Pakhtunkhwa, Pakistan

2021 ◽  
Author(s):  
Muhammad Zahoor ◽  
Shakir Ullah ◽  
Muhammad Abrar ◽  
Tahir Iqbal ◽  
Abdul Hameed
Keyword(s):  
Elemental Composition ◽  
Raw Materials ◽  
Compositional Analysis ◽  
Major Elements ◽  
Raw Material ◽  
Khyber Pakhtunkhwa ◽  
Breakdown Spectroscopy ◽  
Laser Induced Breakdown ◽  
Ancient Ceramic ◽  
Manufacturing Technologies

Abstract The study of material remains has been very essential to reconstruct the past human lifestyle. Archaeologists use different scientific techniques to analyze the elemental composition of the material remains to locate the raw materials, to discover production sites and to understand ancient manufacturing technologies. Of these, Laser Induced Breakdown Spectroscopy (LIBS) method have been extensively used for the compositional analysis of different crystalline and non-crystalline materials of archaeological, historical and artistic interest for the last two decades. The present study was carried out to investigate the elemental composition of ceramic potsherds collected from the historic period. The present paper focuses on the major and minor elements identified through LIBS in the ceramic samples collected from different archaeological sites located in Mansehra, the easternmost district of Khyber Pakhtunkhwa Province of Pakistan. The LIBS results show the presence of Fe, Mg, Ca, and Na as major elements in the ancient ceramic along with traces of Si, Ti, Al and K. LIBS results show differences in the concentration of each elements present in every selected ceramic potsherds which indicates the source of raw material, production strategies and time periods of these objects were related to each other.

scholarly journals Laser Induced Breakdown Spectroscopy and PIXE for Differentiation Between Different Tungsten Alloys

2019 ◽  
Vol 16 (1) ◽  
pp. 212-220
Author(s):  
Ahmed Galmed
Keyword(s):  
Major Elements ◽  
Industrial Applications ◽  
Tungsten Alloys ◽  
Analytical Technique ◽  
Breakdown Spectroscopy ◽  
Minor Elements ◽  
Analysis Technique ◽  
Laser Induced Breakdown ◽  
Increasing Demand ◽  
Trace And Minor Elements

Tungsten is one of the hardest metals that has high melting point and high thermal conductivity. These unique properties make it suitable for many industrial applications. The increasing demand for using tungsten made the need for a fast and reliable analytical technique for tungsten to increase. In this paper we are comparing the ability of LIBS as a multi-elemental analysis technique to PIXE which is a well known established multi-elemental technique in the analysis of tungsten alloys. It was found that LIBS has the advantage over PIXE in the detection of the trace and minor elements. While PIXE is better than LIBS in the detection of major elements in the samples.

Absolute Calibration of Laser-induced Breakdown Spectroscopy Detection System by Using a Tungsten Halogen Lamp

2018 ◽  
Vol 47 (8) ◽  
pp. 847003
Author(s):  
费腾 FEI Teng ◽  
潘从元 PAN Cong-yuan ◽  
曾强 ZENG Qiang ◽  
杜学维 DU Xue-wei ◽  
王秋平 WANG Qiu-ping
Keyword(s):  
Detection System ◽  
Laser Induced Breakdown Spectroscopy ◽  
Absolute Calibration ◽  
Halogen Lamp ◽  
Breakdown Spectroscopy ◽  
Laser Induced Breakdown ◽  
Tungsten Halogen Lamp

Compositional Analysis of Polychromes by Laser-Induced Breakdown Spectroscopy

2008 ◽  
Vol 587-588 ◽  
pp. 657-661 ◽  
Author(s):  
Ana J. López ◽  
Mari Paz Mateo ◽  
Ana Santaclara ◽  
Armando Yáñez
Keyword(s):  
Nd:Yag Laser ◽  
Compositional Analysis ◽  
Laser Source ◽  
Laser Induced Breakdown Spectroscopy ◽  
Depth Profiles ◽  
Breakdown Spectroscopy ◽  
Laser Induced Breakdown

This study deals with the analysis and characterization of wood polychromes by means of Laser-Induced Breakdown Spectroscopy (LIBS). Specimens from a Baroque altarpiece have been analyzed by using a Q-switched Nd:YAG laser source at the wavelength of 355 nm. Previously, a library of characteristic LIBS spectra of the most commonly used pigments and other materials involved was obtained. The knowledge of these spectra allowed us to identify the main constituents of the different layers in polychromes and to obtain compositional depth profiles.

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