Sila-[alpha]-galbanone and Analogues: Synthesis and Olfactory Characterization of Silicon-Containing Derivatives of the Galbanum Odorant [alpha]-Galbanone

Silicon compounds 1b-3b are sila-analogues of the galbanum odorants [alpha]-galbanone (1a), [alpha]-spirogalbanone (2a), and nor-[alpha]-galbanone (3a), respectively. Sila-[alpha]-galbanone (1b), sila-[alpha]-spirogalbanone (2b), and sila-nor-[alpha]-galbanone (3b) were synthesized in multistep synt...

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Veröffentlicht in:	European journal of inorganic chemistry 2014-09, Vol.2014 (26), p.4394
Hauptverfasser:	Dorrich, Steffen, Ulmer, Anna, Mahler, Christoph, Burschka, Christian, Baus, Johannes A, Tacke, Reinhold, Chai, An, Ding, Changming, Zou, Yue, Brunner, Gerhard, Goeke, Andreas, Kraft, Philip
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Schlagworte:	Odors Smell
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container_issue	26
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container_title	European journal of inorganic chemistry
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creator	Dorrich, Steffen Ulmer, Anna Mahler, Christoph Burschka, Christian Baus, Johannes A Tacke, Reinhold Chai, An Ding, Changming Zou, Yue Brunner, Gerhard Goeke, Andreas Kraft, Philip
description	Silicon compounds 1b-3b are sila-analogues of the galbanum odorants [alpha]-galbanone (1a), [alpha]-spirogalbanone (2a), and nor-[alpha]-galbanone (3a), respectively. Sila-[alpha]-galbanone (1b), sila-[alpha]-spirogalbanone (2b), and sila-nor-[alpha]-galbanone (3b) were synthesized in multistep syntheses in isomerically pure form, starting from Me2SiCl2, (CH2=CH)2SiCl2, and Me2(CH2=CH)SiCl, respectively. Hydroformylation of vinylsilanes, followed by either ring-closing aldol condensation or ring-closing alkene metathesis, were the key steps in these syntheses. The C/Si pairs 1a/1b, 2a/2b, and 3a/3b were studied for their olfactory properties. All compounds possess green-fruity galbanum-type odors with pineapple aspects and thus are olfactorily related. However, sila-analogues 1b-3b were found to be weaker than the corresponding parent carbon compounds 1a-3a. This effect is most pronounced for the C/Si pair 2a/2b as indicated by the odor thresholds of 0.023 ngL-1 air (2a) and 3.8 ngL-1 air (2b). However, due to their higher molecular mass, the silicon compounds are less volatile and thus more substantive in functional applications. In contrast to the stable 5-silacyclohex-1-enes 1b and 2b, the 4-silacyclopent-1-ene 3b shows a limited chemical stability. For compound 3a an extremely low odor threshold of 0.0087 ngL-1 air was measured, and the silicon analogue 3b with an odor threshold of 0.085 ngL-1 air is the sila-odorant with the lowest odor threshold measured so far.
doi_str_mv	10.1002/ejic.201402597
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Sila-[alpha]-galbanone (1b), sila-[alpha]-spirogalbanone (2b), and sila-nor-[alpha]-galbanone (3b) were synthesized in multistep syntheses in isomerically pure form, starting from Me2SiCl2, (CH2=CH)2SiCl2, and Me2(CH2=CH)SiCl, respectively. Hydroformylation of vinylsilanes, followed by either ring-closing aldol condensation or ring-closing alkene metathesis, were the key steps in these syntheses. The C/Si pairs 1a/1b, 2a/2b, and 3a/3b were studied for their olfactory properties. All compounds possess green-fruity galbanum-type odors with pineapple aspects and thus are olfactorily related. However, sila-analogues 1b-3b were found to be weaker than the corresponding parent carbon compounds 1a-3a. This effect is most pronounced for the C/Si pair 2a/2b as indicated by the odor thresholds of 0.023 ngL-1 air (2a) and 3.8 ngL-1 air (2b). However, due to their higher molecular mass, the silicon compounds are less volatile and thus more substantive in functional applications. In contrast to the stable 5-silacyclohex-1-enes 1b and 2b, the 4-silacyclopent-1-ene 3b shows a limited chemical stability. For compound 3a an extremely low odor threshold of 0.0087 ngL-1 air was measured, and the silicon analogue 3b with an odor threshold of 0.085 ngL-1 air is the sila-odorant with the lowest odor threshold measured so far.</description><identifier>ISSN: 1434-1948</identifier><identifier>EISSN: 1099-0682</identifier><identifier>DOI: 10.1002/ejic.201402597</identifier><language>eng</language><publisher>Weinheim: Wiley Subscription Services, Inc</publisher><subject>Odors ; Smell</subject><ispartof>European journal of inorganic chemistry, 2014-09, Vol.2014 (26), p.4394</ispartof><rights>Copyright © 2014 WILEY-VCH Verlag GmbH & Co. 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Sila-[alpha]-galbanone (1b), sila-[alpha]-spirogalbanone (2b), and sila-nor-[alpha]-galbanone (3b) were synthesized in multistep syntheses in isomerically pure form, starting from Me2SiCl2, (CH2=CH)2SiCl2, and Me2(CH2=CH)SiCl, respectively. Hydroformylation of vinylsilanes, followed by either ring-closing aldol condensation or ring-closing alkene metathesis, were the key steps in these syntheses. The C/Si pairs 1a/1b, 2a/2b, and 3a/3b were studied for their olfactory properties. All compounds possess green-fruity galbanum-type odors with pineapple aspects and thus are olfactorily related. However, sila-analogues 1b-3b were found to be weaker than the corresponding parent carbon compounds 1a-3a. This effect is most pronounced for the C/Si pair 2a/2b as indicated by the odor thresholds of 0.023 ngL-1 air (2a) and 3.8 ngL-1 air (2b). However, due to their higher molecular mass, the silicon compounds are less volatile and thus more substantive in functional applications. In contrast to the stable 5-silacyclohex-1-enes 1b and 2b, the 4-silacyclopent-1-ene 3b shows a limited chemical stability. 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Sila-[alpha]-galbanone (1b), sila-[alpha]-spirogalbanone (2b), and sila-nor-[alpha]-galbanone (3b) were synthesized in multistep syntheses in isomerically pure form, starting from Me2SiCl2, (CH2=CH)2SiCl2, and Me2(CH2=CH)SiCl, respectively. Hydroformylation of vinylsilanes, followed by either ring-closing aldol condensation or ring-closing alkene metathesis, were the key steps in these syntheses. The C/Si pairs 1a/1b, 2a/2b, and 3a/3b were studied for their olfactory properties. All compounds possess green-fruity galbanum-type odors with pineapple aspects and thus are olfactorily related. However, sila-analogues 1b-3b were found to be weaker than the corresponding parent carbon compounds 1a-3a. This effect is most pronounced for the C/Si pair 2a/2b as indicated by the odor thresholds of 0.023 ngL-1 air (2a) and 3.8 ngL-1 air (2b). However, due to their higher molecular mass, the silicon compounds are less volatile and thus more substantive in functional applications. In contrast to the stable 5-silacyclohex-1-enes 1b and 2b, the 4-silacyclopent-1-ene 3b shows a limited chemical stability. For compound 3a an extremely low odor threshold of 0.0087 ngL-1 air was measured, and the silicon analogue 3b with an odor threshold of 0.085 ngL-1 air is the sila-odorant with the lowest odor threshold measured so far.</abstract><cop>Weinheim</cop><pub>Wiley Subscription Services, Inc</pub><doi>10.1002/ejic.201402597</doi></addata></record>
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title	Sila-[alpha]-galbanone and Analogues: Synthesis and Olfactory Characterization of Silicon-Containing Derivatives of the Galbanum Odorant [alpha]-Galbanone
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