KAJIAN TEORITIS KEMAMPUAN CAPPING KATEKIN, KATEKU TANAT DAN QUARSETIN TERHADAP NANOPARTIKEL PERAK DENGAN MENGGUNAKAN METODA DFT-B

KAJIAN TEORITIS KEMAMPUAN CAPPING KATEKIN, KATEKU TANAT DAN QUARSETIN TERHADAP NANOPARTIKEL PERAK DENGAN MENGGUNAKAN METODA DFT-B

Interdiffusion mechanism of catechin, catechutannic acid and quercetin are studied by using DFT-B method. But before conducting these experiment, we perform molecular dynamic simulations to find adsorption models probability of each compound. Two models adsorption of quarcetin, four models for catec...

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Bibliographic Details
Main Authors: Syukri Arief, Emriadi -, Ade Saputra
Format: Article
Language:Indonesian
Published: Department of Chemistry, Faculty of Mathematics and Natural Sciences, Universitas Andalas 2017-04-01
Series:Jurnal Riset Kimia
Subjects:
Silver Nanoparticle, Capping, Adsorption, DFTB
Online Access:http://jrk.fmipa.unand.ac.id/index.php/jrk/article/view/256
id doaj-31f681eae07d4317a4e788aad5e34d35
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spelling doaj-31f681eae07d4317a4e788aad5e34d352020-11-25T02:01:11ZindDepartment of Chemistry, Faculty of Mathematics and Natural Sciences, Universitas AndalasJurnal Riset Kimia1978-628X2476-89602017-04-019110.25077/jrk.v9i1.256183KAJIAN TEORITIS KEMAMPUAN CAPPING KATEKIN, KATEKU TANAT DAN QUARSETIN TERHADAP NANOPARTIKEL PERAK DENGAN MENGGUNAKAN METODA DFT-BSyukri Arief0Emriadi -1Ade SaputraJurusan Kimia, Universitas Andalas, Padang, 25163, IndonesiaJurusan Kimia, Universitas Andalas, Padang, 25163, IndonesiaInterdiffusion mechanism of catechin, catechutannic acid and quercetin are studied by using DFT-B method. But before conducting these experiment, we perform molecular dynamic simulations to find adsorption models probability of each compound. Two models adsorption of quarcetin, four models for catechin and three models for catechutannic acid have been obtained from molecular dynamic simulations. Quantum parameter of each compound, energy and properties adsorption models have been calculated and discussed. The theoretical results were found to be consistent with the experimental data reported. Futhermore, optimization adsorption model samples show that all of adsorbents have weak bonds on the surface of silver nanoparticles. The mechanism can be classified as strong physisorption, so that catechin, catechutannic acid and quercetin can be categorized as good capping agent in synthesis of silver nanoparticles.http://jrk.fmipa.unand.ac.id/index.php/jrk/article/view/256Silver Nanoparticle, Capping, Adsorption, DFTB
collection DOAJ
language Indonesian
format Article
sources DOAJ
author Syukri Arief
Emriadi -
Ade Saputra
spellingShingle Syukri Arief
Emriadi -
Ade Saputra
KAJIAN TEORITIS KEMAMPUAN CAPPING KATEKIN, KATEKU TANAT DAN QUARSETIN TERHADAP NANOPARTIKEL PERAK DENGAN MENGGUNAKAN METODA DFT-B
Jurnal Riset Kimia
Silver Nanoparticle, Capping, Adsorption, DFTB
author_facet Syukri Arief
Emriadi -
Ade Saputra
author_sort Syukri Arief
title KAJIAN TEORITIS KEMAMPUAN CAPPING KATEKIN, KATEKU TANAT DAN QUARSETIN TERHADAP NANOPARTIKEL PERAK DENGAN MENGGUNAKAN METODA DFT-B
title_short KAJIAN TEORITIS KEMAMPUAN CAPPING KATEKIN, KATEKU TANAT DAN QUARSETIN TERHADAP NANOPARTIKEL PERAK DENGAN MENGGUNAKAN METODA DFT-B
title_full KAJIAN TEORITIS KEMAMPUAN CAPPING KATEKIN, KATEKU TANAT DAN QUARSETIN TERHADAP NANOPARTIKEL PERAK DENGAN MENGGUNAKAN METODA DFT-B
title_fullStr KAJIAN TEORITIS KEMAMPUAN CAPPING KATEKIN, KATEKU TANAT DAN QUARSETIN TERHADAP NANOPARTIKEL PERAK DENGAN MENGGUNAKAN METODA DFT-B
title_full_unstemmed KAJIAN TEORITIS KEMAMPUAN CAPPING KATEKIN, KATEKU TANAT DAN QUARSETIN TERHADAP NANOPARTIKEL PERAK DENGAN MENGGUNAKAN METODA DFT-B
title_sort kajian teoritis kemampuan capping katekin, kateku tanat dan quarsetin terhadap nanopartikel perak dengan menggunakan metoda dft-b
publisher Department of Chemistry, Faculty of Mathematics and Natural Sciences, Universitas Andalas
series Jurnal Riset Kimia
issn 1978-628X
2476-8960
publishDate 2017-04-01
description Interdiffusion mechanism of catechin, catechutannic acid and quercetin are studied by using DFT-B method. But before conducting these experiment, we perform molecular dynamic simulations to find adsorption models probability of each compound. Two models adsorption of quarcetin, four models for catechin and three models for catechutannic acid have been obtained from molecular dynamic simulations. Quantum parameter of each compound, energy and properties adsorption models have been calculated and discussed. The theoretical results were found to be consistent with the experimental data reported. Futhermore, optimization adsorption model samples show that all of adsorbents have weak bonds on the surface of silver nanoparticles. The mechanism can be classified as strong physisorption, so that catechin, catechutannic acid and quercetin can be categorized as good capping agent in synthesis of silver nanoparticles.
topic Silver Nanoparticle, Capping, Adsorption, DFTB
url http://jrk.fmipa.unand.ac.id/index.php/jrk/article/view/256
work_keys_str_mv AT syukriarief kajianteoritiskemampuancappingkatekinkatekutanatdanquarsetinterhadapnanopartikelperakdenganmenggunakanmetodadftb
AT emriadi kajianteoritiskemampuancappingkatekinkatekutanatdanquarsetinterhadapnanopartikelperakdenganmenggunakanmetodadftb
AT adesaputra kajianteoritiskemampuancappingkatekinkatekutanatdanquarsetinterhadapnanopartikelperakdenganmenggunakanmetodadftb
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