doi:10.21123/bsj.2011.8.2.566-570

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Publication Date

Sun Jun 12 2011

Journal Name

Baghdad Science Journal

Volume

8

Issue Number

2

DOI

10.21123/bsj.2011.8.2.566-570

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The Effect of Chlorine Concentration on the Optical Constants of SnS Thin Films

SnS

thin films

optical constants

spray pyrolysis

doping

Nadir Fadhil

Sami Salman

Reem Saadi

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Chlorine doped SnS have been prepared utilizing chemical spray pyrolysis. The effects of chlorine concentration on the optical constants were studied. It was seen that the transmittance decreased with doping, while reflectance, refractive index, extinction coefficient, real and imaginary parts of dielectric constant were increased as the doping percentage increased. The results show also that the skin depth decrease as the chlorine percentage increased which could be assure that it is transmittance related.

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Publication Date

Tue Feb 28 2023

Journal Name

Iraqi Journal Of Science

Calculating Parameters for Se and Tin Plasmas Produced by Pulsed Nd: YAG Laser

Selenium (Se)

Tin (Sn)

Optical Emission Spectroscopy (OES)

_YAG laser

Laser-Induced Breakdown Spectroscopy (LIBS)

Zahraa A.

Kadhim A.

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In this study, the plasma formed by the preparation of Se and Tin (Sn) using a Nd: YAG laser with a wavelength of 1064 nm in air, which was then studied using the technique of optical emission spectrum, was presented (OES).The laser-induced plasma parameters such an electron temperature (Te) were identified using two-ratio methods, using Stark broadening methods to determine the density of electrons (n_e). According to the findings, there is a correlation between the amount of laser energy that is applied and the increase in the emission intensity of the spectral lines. In the case of Se plasma, an increase in laser energy causes a rise in the temperature of the electrons. While increasing the temperature of the elec

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Publication Date

Thu Sep 26 2024

Journal Name

Journal Of Optics

Cysteine-cupped CdSe/CdS quantum dots as an opticalbiosensor for early skin cancer detection

CdSe/CdS quantum dot

Cysteine cupped CdSe/CdS

Deformed DNA

DNA

Energy gap

Optical properties

Skin cancer

Thalfaa

Manal Midhat

Fadhel Mohammed

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This study represents an optical biosensor for early skin cancer detection using cysteine-cupped CdSe/CdS Quantum Dots (QDs). The study optimizes QD synthesis, surface, optical functionalization, and bioconjugation to enhance specificity and sensitivity for early skin cancer cell detection. The research provides insights into QD interactions with skin cancer biomarkers, demonstrating high-contrast, precise cellular imaging. Cysteine-capped CdSe/CdS absorption spectra reveal characteristic peaks for undamaged DNA, while spectral shifts indicate structural changes in skin-cancer-damaged DNA. Additionally, fluorescence spectra show sharp peaks for undamaged DNA and notable shifts and intensity variations when interacting with skin cancer. This

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