Pt, Pd and Cu metal-amidine coordination
Amidines, R’NH-C(R)=NR’, as for the isoelectronic carboxylic acids, form a variety of compounds incorporating transition metals from lower to higher oxidation states. Many studies reveal that Platinum, palladium and copper metals are very active in bonding with amidine moieties. The novelty of work...
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2019
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my.um.eprints.233432020-01-08T06:00:04Z http://eprints.um.edu.my/23343/ Pt, Pd and Cu metal-amidine coordination Taj, Muhammad Babar Raheel, Ahmad Tirmizi, Syed Ahmad Sharif, Muhammad Ahmad, Raja Hammad Ali, Hapipah Mohd Q Science (General) QD Chemistry Amidines, R’NH-C(R)=NR’, as for the isoelectronic carboxylic acids, form a variety of compounds incorporating transition metals from lower to higher oxidation states. Many studies reveal that Platinum, palladium and copper metals are very active in bonding with amidine moieties. The novelty of work presented here resides in an unified approach that deals with the interpretation of various types of bonding modes shown by amidine moieties and particularly the most remarkable achievements in the design and development of platinum, palladium and copper (II) complexes of substituted amidines. Special emphasis has been focused on the identification of structural relationships for the complexes formed. © 2019 Editura Academiei Romane. All rights reserved. Editura Academiei Romane 2019 Article PeerReviewed Taj, Muhammad Babar and Raheel, Ahmad and Tirmizi, Syed Ahmad and Sharif, Muhammad and Ahmad, Raja Hammad and Ali, Hapipah Mohd (2019) Pt, Pd and Cu metal-amidine coordination. Revue Roumaine de Chimie, 64 (5). pp. 387-392. ISSN 0035-3930 https://doi.org/10.33224/rrch/2019.64.5.01 doi:10.33224/rrch/2019.64.5.01 |
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Q Science (General) QD Chemistry Taj, Muhammad Babar Raheel, Ahmad Tirmizi, Syed Ahmad Sharif, Muhammad Ahmad, Raja Hammad Ali, Hapipah Mohd Pt, Pd and Cu metal-amidine coordination |
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Amidines, R’NH-C(R)=NR’, as for the isoelectronic carboxylic acids, form a variety of compounds incorporating transition metals from lower to higher oxidation states. Many studies reveal that Platinum, palladium and copper metals are very active in bonding with amidine moieties. The novelty of work presented here resides in an unified approach that deals with the interpretation of various types of bonding modes shown by amidine moieties and particularly the most remarkable achievements in the design and development of platinum, palladium and copper (II) complexes of substituted amidines. Special emphasis has been focused on the identification of structural relationships for the complexes formed. © 2019 Editura Academiei Romane. All rights reserved. |
| format |
Article |
| author |
Taj, Muhammad Babar Raheel, Ahmad Tirmizi, Syed Ahmad Sharif, Muhammad Ahmad, Raja Hammad Ali, Hapipah Mohd |
| author_facet |
Taj, Muhammad Babar Raheel, Ahmad Tirmizi, Syed Ahmad Sharif, Muhammad Ahmad, Raja Hammad Ali, Hapipah Mohd |
| author_sort |
Taj, Muhammad Babar |
| title |
Pt, Pd and Cu metal-amidine coordination |
| title_short |
Pt, Pd and Cu metal-amidine coordination |
| title_full |
Pt, Pd and Cu metal-amidine coordination |
| title_fullStr |
Pt, Pd and Cu metal-amidine coordination |
| title_full_unstemmed |
Pt, Pd and Cu metal-amidine coordination |
| title_sort |
pt, pd and cu metal-amidine coordination |
| publisher |
Editura Academiei Romane |
| publishDate |
2019 |
| url |
http://eprints.um.edu.my/23343/ https://doi.org/10.33224/rrch/2019.64.5.01 |
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1657488195683614720 |
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13.211869 |