Surface functionalization of coal and quartz with aniline: A study on work function and frictional charge

Surface functionalization of coal and quartz with aniline: A study on work function and frictional charge

The present study deals with the surface functionalization of coal and quartz using aniline with an intention to achieve a higher differential charge facilitating their separation in an electric field. The Fourier Transform Infrared (FT-IR) spectroscopic studies confirm the adsorption of aniline on...

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Veröffentlicht in:Powder technology 2018-10, Vol.338, p.233-242
Hauptverfasser: Mohanta, S.K., Rath, S.S., Dwari, R.K.
Format: Artikel
Sprache:eng
Schlagworte:
Adsorption
Aniline
Charge density
Chemical treatment
Coal
Coal preparation
Copper
Density functional theory
DFT
Electric contacts
Electric fields
Fourier transforms
Motivation
Organic chemistry
Quartz
Simulation
Surface functionalization
Tribo-electrification
Work function
Work functions
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creator Mohanta, S.K.
Rath, S.S.
Dwari, R.K.
description The present study deals with the surface functionalization of coal and quartz using aniline with an intention to achieve a higher differential charge facilitating their separation in an electric field. The Fourier Transform Infrared (FT-IR) spectroscopic studies confirm the adsorption of aniline on the coal and quartz surface after chemical conditioning. The surface work function of both coal and quartz are found to decrease after being treated with aniline. However, the work function of coal decreases to a greater extent (3.464%) in comparison to quartz which decreases by 1.016%. Thereby, the net work function difference between the coal and quartz particles increases by 129% (from 0.089 eV to 0.204 eV) after chemical treatment. The work function of the copper tribo-charging medium falls between the work function values of both the original and the aniline treated coal and quartz samples. Therefore, the charge density of the treated coal particles increases on contact with copper while there is a minor reduction in charge of the treated quartz. The charge acquisition data corroborates well with the surface work function data. Density Functional Theory (DFT) based simulation has been carried out to validate the trend of the decrease in work function after the treatment with aniline. The DFT calculations are found to be in good agreement with the experimentally measured change in the surface work function data of both coal and quartz sample after chemical treatment. [Display omitted] •Surface functionalization with aniline to modify work function of quartz and coal.•Work function difference between quartz and coal increased after treatment.•Differential charge between quartz and coal increased after chemical condition.•DFT simulation validated measured work function change in original/treated sample.
doi_str_mv 10.1016/j.powtec.2018.07.029
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The Fourier Transform Infrared (FT-IR) spectroscopic studies confirm the adsorption of aniline on the coal and quartz surface after chemical conditioning. The surface work function of both coal and quartz are found to decrease after being treated with aniline. However, the work function of coal decreases to a greater extent (3.464%) in comparison to quartz which decreases by 1.016%. Thereby, the net work function difference between the coal and quartz particles increases by 129% (from 0.089 eV to 0.204 eV) after chemical treatment. The work function of the copper tribo-charging medium falls between the work function values of both the original and the aniline treated coal and quartz samples. Therefore, the charge density of the treated coal particles increases on contact with copper while there is a minor reduction in charge of the treated quartz. The charge acquisition data corroborates well with the surface work function data. Density Functional Theory (DFT) based simulation has been carried out to validate the trend of the decrease in work function after the treatment with aniline. The DFT calculations are found to be in good agreement with the experimentally measured change in the surface work function data of both coal and quartz sample after chemical treatment. 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Density Functional Theory (DFT) based simulation has been carried out to validate the trend of the decrease in work function after the treatment with aniline. The DFT calculations are found to be in good agreement with the experimentally measured change in the surface work function data of both coal and quartz sample after chemical treatment. 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Density Functional Theory (DFT) based simulation has been carried out to validate the trend of the decrease in work function after the treatment with aniline. The DFT calculations are found to be in good agreement with the experimentally measured change in the surface work function data of both coal and quartz sample after chemical treatment. [Display omitted] •Surface functionalization with aniline to modify work function of quartz and coal.•Work function difference between quartz and coal increased after treatment.•Differential charge between quartz and coal increased after chemical condition.•DFT simulation validated measured work function change in original/treated sample.</abstract><cop>Lausanne</cop><pub>Elsevier B.V</pub><doi>10.1016/j.powtec.2018.07.029</doi><tpages>10</tpages></addata></record>
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subjects Adsorption
Aniline
Charge density
Chemical treatment
Coal
Coal preparation
Copper
Density functional theory
DFT
Electric contacts
Electric fields
Fourier transforms
Motivation
Organic chemistry
Quartz
Simulation
Surface functionalization
Tribo-electrification
Work function
Work functions
title Surface functionalization of coal and quartz with aniline: A study on work function and frictional charge
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