header
Image from OpenLibrary

Studies on complexes of Pd(2-(ethylthio)ethylamine) Cl₂ and 2 bio-relevant ligands with reference to their stability constants in solutions / Mervat Sayed Mohamed Mostafa ; Supervised Laila Hamdan Abdelrahman , Mohamed Refaat Shehata , Ram K. Agarwal

By: Contributor(s): Material type: TextTextLanguage: English Publication details: Cairo : Mervat Sayed Mohamed Mostafa , 2017Description: 212 P. ; 25cmOther title:
  • {uFEA9}{uFEAD}{uFE8D}{uFEB3}{uFE8E}{uFE95} {uFECB}{uFEE0}ى {uئإإ٣}{uئإ٩٨}{uئإءإ}{uئإ٨ؤ}{uئإؤآ}{uئإ٩٢}{uئإ٨إ}{uئإ٩٥} {uئإ٩١}{uئإ٨إ}{uئإؤئ}{uئإءء}{uئإئ٣}{uئإإإ}{uئإإ١} (2-{uFE8D}{uFEF3}{uFE9C}{uFEF4}{uFEDE} {uFE9B}{uFEF4}{uFEEE} {uFE8D}{uFEF3}{uFE9C}{uFEF4}{uFEDE} {uFE83}{uFEE3}{uFEF4}{uFEE6}) {uFE9B}{uFEE8}{uFE8E}{uFE8B}{uFEF0} {uFE8D}{uFEDF}{uFEDC}{uFEE0}{uFEEE}{uFEAD}{uFEF3}{uFEAA} {uFEED} {uFE8D}{uFEDF}{uFEE4}{uFEEE}{uFE8D}{uFEE7}{uFEA2} {uFEAB}{uFE8D}{uFE95} {uFE8D}{uFEF7}{uFEEB}{uFEE4}{uFEF4}{uFE94} {uFE8D}{uFEDF}{uFE92}{uFEF4}{uFEEE}{uFEDF}{uFEEE}{uFE9F}{uFEF4}{uFE94} {uFE91}{uFE8E}{uFEFB}{uFEB7}{uFE8E}{uFEAD}{uFE93} {uFE8D}{uFEDF}{uFEF0} {uFE9B}{uFEEE}{uFE8D}{uFE91}{uFE96} {uFE8D}{uFE97}{uFEB0}{uFE8D}{uFEE7}{uFE8E}{uFE97}{uFEEC}{uFE8E} {uFED3}{uFEF0} {uFE8D}{uFEDF}{uFEE4}{uFEA4}{uFE8E}{uFEDF}{uFEF4}{uFEDE} [Added title page title]
Subject(s): Available additional physical forms:
  • Issued also as CD
Dissertation note: Thesis (M.Sc.) - Cairo University - Faculty of Science - Department of Inorganic Chemistry Summary: The thesis involves the synthesis and characterization of [Pd(ETEA)Cl₂] complex; where ETEA = 2-(ethylthio)ethylamine. TEM and DLS were carried out for morphology and particle size and distribution investigation. Stoichiometry and stability constants of the complexes formed between various biologically relevant ligands (amino acids, peptides, DNA constituents and dicarboxylic acids) and [Pd(ETEA)(H₂O)₂]2+ are investigated at 25{u00BA}C and at constant 0.1 M ionic strength. The concentration distributions diagrams of the various species formed are evaluated. Thermogravimetric analysis for Pd(ETEA)Cl₂ is studied. The TGA curves of Pd(ETEA)Cl₂ exhibits four decomposition steps, respectively, leaving a residue of palladium metal. The thermodynamic parameters of the decomposition steps for Pd(ETEA)Cl₂ were calculated using coats-redfern and horowitz-metzger methods. X-ray single crystals of [Pd(ETEA)Cl₂] is studied. Density functional theory (DFT) calculations have been carried out to investigate the most stable geometries of the ligands, Pd(ETEA)Cl₂ complex. Biological activities of Pd(ETEA)Cl₂) against microbes and tumor cells were carried out
Tags from this library: No tags from this library for this title. Log in to add tags.
Star ratings
    Average rating: 0.0 (0 votes)
Holdings
Item type Current library Home library Call number Copy number Status Date due Barcode
Thesis Thesis قاعة الرسائل الجامعية - الدور الاول المكتبة المركزبة الجديدة - جامعة القاهرة Cai01.12.09.M.Sc.2017.Me.S (Browse shelf(Opens below)) Not for loan 01010110072615000
CD - Rom CD - Rom مخـــزن الرســائل الجـــامعية - البدروم المكتبة المركزبة الجديدة - جامعة القاهرة Cai01.12.09.M.Sc.2017.Me.S (Browse shelf(Opens below)) 72615.CD Not for loan 01020110072615000

Thesis (M.Sc.) - Cairo University - Faculty of Science - Department of Inorganic Chemistry

The thesis involves the synthesis and characterization of [Pd(ETEA)Cl₂] complex; where ETEA = 2-(ethylthio)ethylamine. TEM and DLS were carried out for morphology and particle size and distribution investigation. Stoichiometry and stability constants of the complexes formed between various biologically relevant ligands (amino acids, peptides, DNA constituents and dicarboxylic acids) and [Pd(ETEA)(H₂O)₂]2+ are investigated at 25{u00BA}C and at constant 0.1 M ionic strength. The concentration distributions diagrams of the various species formed are evaluated. Thermogravimetric analysis for Pd(ETEA)Cl₂ is studied. The TGA curves of Pd(ETEA)Cl₂ exhibits four decomposition steps, respectively, leaving a residue of palladium metal. The thermodynamic parameters of the decomposition steps for Pd(ETEA)Cl₂ were calculated using coats-redfern and horowitz-metzger methods. X-ray single crystals of [Pd(ETEA)Cl₂] is studied. Density functional theory (DFT) calculations have been carried out to investigate the most stable geometries of the ligands, Pd(ETEA)Cl₂ complex. Biological activities of Pd(ETEA)Cl₂) against microbes and tumor cells were carried out

Issued also as CD

There are no comments on this title.

to post a comment.