Coordination of the hemilabile ligand diphenylvinylphosphine to Ru4(µ-H)4(CO)12: synthesis, stability and structural studies
The tetraruthenium tetrahydrido carbonyl cluster Ru4(µ-H)4(CO)12 (1) reacts with diphenylvinylphosphine under thermal activation to give the substitution products Ru4(µ-H)4(CO)12−n(κ1-Ph2PCH=CH2)n, (2) (n = 3 (a); 4 (b)). Both 2a and 2b have been completely characterized, including by single-crystal...
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sg-ntu-dr.10356-1624402022-10-19T02:44:07Z Coordination of the hemilabile ligand diphenylvinylphosphine to Ru4(µ-H)4(CO)12: synthesis, stability and structural studies Neo, Edward Ren Kai Ong, Han Wee Wong, Zhen Xuan Kumaran, Elumalai Ganguly, Rakesh Leong, Weng Kee Tan, Kelvin Yong Leng School of Physical and Mathematical Sciences Science::Chemistry Crystal Structures Hydride Ligands The tetraruthenium tetrahydrido carbonyl cluster Ru4(µ-H)4(CO)12 (1) reacts with diphenylvinylphosphine under thermal activation to give the substitution products Ru4(µ-H)4(CO)12−n(κ1-Ph2PCH=CH2)n, (2) (n = 3 (a); 4 (b)). Both 2a and 2b have been completely characterized, including by single-crystal X-ray diffraction analysis. Each of the diphenylvinylphosphine ligands in 2a and 2b is terminally bound, via the phosphorus atom, to a different ruthenium metal center, while the hydride positions in the Ru4(µ-H)4 cores retain the D2d symmetry of the parent cluster 1. Clusters 2a and 2b were able to retain their structural integrity at elevated temperatures. Graphic Abstract: Thermolysis of Ru4(μ-H)4(CO)12 (1) in cyclohexane with diphenylvinylphosphine afforded the tri- and tetra-substituted derivatives Ru4(μ-H)4(CO)9(κ1-Ph2PCH=CH2)3 (2a) and Ru4(μ-H)4(CO)8(κ1-Ph2PCH=CH2)4 (2b). For both substituted clusters, the diphenylvinylphosphine ligands are bound terminally to the tetraruthenium core via the phosphorus atoms while the hydride positions retain the D2d symmetry of the parent cluster 1.[Figure not available: see fulltext.] Ministry of Education (MOE) Nanyang Technological University This work was supported by Hwa Chong Institution as well as Nanyang Technological University and the Ministry of Education with a research Grant (No. M4011158). 2022-10-19T02:44:07Z 2022-10-19T02:44:07Z 2022 Journal Article Neo, E. R. K., Ong, H. W., Wong, Z. X., Kumaran, E., Ganguly, R., Leong, W. K. & Tan, K. Y. L. (2022). Coordination of the hemilabile ligand diphenylvinylphosphine to Ru4(µ-H)4(CO)12: synthesis, stability and structural studies. Journal of Cluster Science, 33(5), 2337-2343. https://dx.doi.org/10.1007/s10876-021-02150-0 1040-7278 https://hdl.handle.net/10356/162440 10.1007/s10876-021-02150-0 2-s2.0-85113303344 5 33 2337 2343 en M4011158 Journal of Cluster Science © 2021 The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature. All rights reserved. |
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Science::Chemistry Crystal Structures Hydride Ligands Neo, Edward Ren Kai Ong, Han Wee Wong, Zhen Xuan Kumaran, Elumalai Ganguly, Rakesh Leong, Weng Kee Tan, Kelvin Yong Leng Coordination of the hemilabile ligand diphenylvinylphosphine to Ru4(µ-H)4(CO)12: synthesis, stability and structural studies |
| description |
The tetraruthenium tetrahydrido carbonyl cluster Ru4(µ-H)4(CO)12 (1) reacts with diphenylvinylphosphine under thermal activation to give the substitution products Ru4(µ-H)4(CO)12−n(κ1-Ph2PCH=CH2)n, (2) (n = 3 (a); 4 (b)). Both 2a and 2b have been completely characterized, including by single-crystal X-ray diffraction analysis. Each of the diphenylvinylphosphine ligands in 2a and 2b is terminally bound, via the phosphorus atom, to a different ruthenium metal center, while the hydride positions in the Ru4(µ-H)4 cores retain the D2d symmetry of the parent cluster 1. Clusters 2a and 2b were able to retain their structural integrity at elevated temperatures. Graphic Abstract: Thermolysis of Ru4(μ-H)4(CO)12 (1) in cyclohexane with diphenylvinylphosphine afforded the tri- and tetra-substituted derivatives Ru4(μ-H)4(CO)9(κ1-Ph2PCH=CH2)3 (2a) and Ru4(μ-H)4(CO)8(κ1-Ph2PCH=CH2)4 (2b). For both substituted clusters, the diphenylvinylphosphine ligands are bound terminally to the tetraruthenium core via the phosphorus atoms while the hydride positions retain the D2d symmetry of the parent cluster 1.[Figure not available: see fulltext.] |
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School of Physical and Mathematical Sciences |
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School of Physical and Mathematical Sciences Neo, Edward Ren Kai Ong, Han Wee Wong, Zhen Xuan Kumaran, Elumalai Ganguly, Rakesh Leong, Weng Kee Tan, Kelvin Yong Leng |
| format |
Article |
| author |
Neo, Edward Ren Kai Ong, Han Wee Wong, Zhen Xuan Kumaran, Elumalai Ganguly, Rakesh Leong, Weng Kee Tan, Kelvin Yong Leng |
| author_sort |
Neo, Edward Ren Kai |
| title |
Coordination of the hemilabile ligand diphenylvinylphosphine to Ru4(µ-H)4(CO)12: synthesis, stability and structural studies |
| title_short |
Coordination of the hemilabile ligand diphenylvinylphosphine to Ru4(µ-H)4(CO)12: synthesis, stability and structural studies |
| title_full |
Coordination of the hemilabile ligand diphenylvinylphosphine to Ru4(µ-H)4(CO)12: synthesis, stability and structural studies |
| title_fullStr |
Coordination of the hemilabile ligand diphenylvinylphosphine to Ru4(µ-H)4(CO)12: synthesis, stability and structural studies |
| title_full_unstemmed |
Coordination of the hemilabile ligand diphenylvinylphosphine to Ru4(µ-H)4(CO)12: synthesis, stability and structural studies |
| title_sort |
coordination of the hemilabile ligand diphenylvinylphosphine to ru4(µ-h)4(co)12: synthesis, stability and structural studies |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162440 |
| _version_ |
1749179212507381760 |