Creating Optical Activity: Total Spontaneous Resolution and Viedma Ripening
Abstract
The creation of optical activity has been considered as something impossible even though reports of such creation via total spontaneous resolution since the 1940´s have been published. More recently Viedma ripening have been developed that also produce enantiopure bulk product. Both methods are examples of absolute asymmetric synthesis i.e. the synthesis of optically active product from non-optically active starting materials, catalysts or auxiliaries.
In this work twenty-four new compounds have been synthesized, isolated and characterized with X-ray diffraction. Out of these have eleven been found to crystallize as conglomerates as chiral enantiopure crystals which are optically active. The discovered conglomerates have been analyzed with solid state techniques as circular dichroism (CD) and vibrational circular dichroism(VCD).
For the moderately labile [Ru(PS)2Cl2], [Ru(dmso)2(NS)Cl2 and [Ru(dmso)2(SS)Cl2] have the chirality been fixated by oxidizing the ligand in solution to the corresponding sulfoxide. For the highly labile [Co(bpy)3](PF6)2 the chirality has been fixated by oxidizing the metal from cobalt(II), solvent free in the solid state, to the inert cobalt (III) with bromine vapor or solid iodine. The optical activity of the inert complexes has been analyzed with solution techniques such as CD, HPLC and ORD.
The optical activity of the complexes [Mo(CO)4PS] and [W(CO)4PS] have been analyzed with solid state VCD with less than tenth of a milligram sample and high-quality spectra have been obtained in 20 minutes.
Total spontaneous resolution has been achieved with the compounds [Ru(PS)2Cl2], [Ru(dmso)2(NS)Cl2, [Ru(dmso)2(SS)Cl2] and [Ag(PS)2](BF4) in good yield and high ee.
Viedma ripening has been demonstrated for the complexes [Ag(PS)2](BF4), [Mo(CO)4PS], [W(CO)4PS] and [Cu(mtp)2(NO3)2]. Viedma ripening has been found to be viable for the production of large quantities of optically pure metal complex.
Parts of work
I. Theonitsa Kokoli, Per Martin Björemark and Mikael Håkansson. Copper (I) halide complexes with prochiral sulfide ligands; Manuscript II. Theonitsa Kokoli, Susanne Olsson, Per Martin Björemark, Staffan Persson and Mikael Håkansson. Toward absolute asymmetric synthesis of coordination polymers with bidentate sulfide ligands. Journal of Organometallic Chemistry, 2013 (724), 17-22. ::doi::10.1016/j.jorganchem.2012.10.035 III. Theonitsa Kokoli, Susanne Olsson, Per Martin Björemark, Jonas Sundberg, Anders Lennartsson, Christine J. McKenzie and Mikael Håkansson. Absolute asymmetric synthesis: Protected substrate oxidation. Chemistry-a European Journal, 2015 (21), 13, 5211-5219. ::doi::10.1002/chem.201406354 IV. Per Martin Björemark, Susanne Olsson, Theonitsa Kokoli, Mikael Håkansson. Absolute Asymmetric Synthesis of a Tetrahedral Silver Complex. Chemistry-a European Journal, 2015 (21), 24, 8750-8753. ::doi::10.1002/chem.201500986 V. Per Martin Björemark, Johan Jönsson and Mikael Håkansson. Absolute Asymmetric Synthesis: Viedma Ripening of Co(bpy)3(2+) and Solvent-Free Oxidation to Co(bpy)3(3+). Chemistry-a European Journal, 2015 (21), 30 10630-10633. ::doi::10.1002/chem.201500876 VI. Per Martin Björemark and Mikael Håkansson. Viedma Ripening of Group VI Metal Carbonyl Complexes. Manuscript. VII. Per Martin Björemark, Jonas Sundberg, Vibe B. Jacobsen, Christine J. McKenzie,
and Mikael Håkansson. Grinding Achiral Crystals to Enantiopurity. Manuscript
Degree
Doctor of Philosophy
University
University of Gothenburg. Faculty of Science
Institution
Department of Chemistry and Molecular Biology ; Institutionen för kemi och molekylärbiologi
Disputation
Kl. 10.00 Sal SB-H1, Sven Hultins Gata 6, Johanneberg.
Date of defence
2017-11-10
per.martin.bjoremark@gu.se
Date
2017-10-18Author
Björemark, Per Martin
Keywords
Optical activity
absolute asymmetric synthesis
total spontaneous resolution
Viedma ripening
grinding
chirality
conglomerate
coordination compound
coordination polymer
single crystal X-ray diffraction
solvent free oxidation
nantioselective sulfide oxidation
solid state VCD
Publication type
Doctoral thesis
ISBN
978-91-629-0327-5
Language
eng