Phosphorus ylides, sulfur ylides, and related carbanions as reference nucleophiles for the quantification of the electrophilic reactivities of aldehydes, imines, and enones [Elektronische Ressource] / Roland Joachilm Appel

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Publié par	ludwig-maximilians-universitat_munchen
Publié le	01 janvier 2011
Nombre de lectures	15
Langue	English
Poids de l'ouvrage	3 Mo

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Dissertation zur Erlangung des Doktorgrades
der Fakultät für Chemie und Pharmazie
der Ludwig-Maximilians-Universität München

Phosphorus Ylides, Sulfur Ylides, and Related Carbanions as
Reference Nucleophiles for the Quantification of the
Electrophilic Reactivities of Aldehydes, Imines, and Enones

Roland Joachim Appel

aus München

2011
Erklärung

Diese Dissertation wurde im Sinne von §13 Abs. 3 bzw. 4 der Promotionsordnung vom 29.
Januar 1998 (in der Fassung der vierten Änderungssatzung vom 26. November 2004) von
Herrn Professor Dr. Herbert Mayr betreut.

Ehrenwörtliche Versicherung

Diese Dissertation wurde selbständig, ohne unerlaubte Hilfe erarbeitet.

München, 10.02.2011

____________________________
Roland Appel

Dissertation eingereicht am: 10.02.2011

1.Gutachter: Prof. Dr. Herbert Mayr
2.Gutachter: Prof. Dr. Manfred Heuschmann

Mündliche Prüfung am: 05.04.2011

FÜR MEINE ELTERN

Acknowledgment
Acknowledgment

First, I would like to express my deepest gratitude to Professor Dr. Mayr for giving me the
opportunity to perform this thesis in his group. I have always appreciated the valuable
discussions with him, his endless support, his expert knowledge in any field of chemistry, his
inspiring confidence, and the possibility for a self-contained planning and presenting of
projects. I really enjoyed working under these excellent conditions and I cannot
overemphasize my gratitude for all the things I learned during this time.

Furthermore, I want to thank Professor Dr. Heuschmann for reviewing this thesis and the
board of examiners for their participation in my defense examination.

The financial support by the Fonds der Chemischen Industrie (scholarship for PhD students)
is gratefully acknowledged. Besides the funding for two years of my time during the PhD, this
scholarship gave me the possibility to attend several international conferences.

Furthermore, I would like to thank all my colleagues within the group of Professor Dr. Mayr
(and the group of Dr. Konrad Koszinowski) for the great and pleasant working atmosphere,
especially Dr. Tanja Kanzian, Dr. Sami Lakhdar, Dr. Martin Breugst, Christoph Nolte (The
famous “Olah-Lab-Crew”), and Dr. Nicolas Streidl. I will never forget the great time with
you, our professional and private conversations, and I hope that these friendships will
continue in the future. Special thanks go to Dr. Sami Lakhdar for fantastic advices to plan my
projects and for giving me the opportunity to see the most beautiful places of Tunesia on the
occasion of the International Symposium of Modern Organic Chemistry (ISMOC) in
Monastir 2009. I would also like to thank Nicolai Hartmann and Vasily Mezhnev for their
great collaboration during their undergraduate research laboratories. Sincere thanks are given
to Nathalie Hampel for synthesizing our reference electrophiles and for her original Bavarian
charm, Brigitte Janker for solving any emerging problem, and Hildegard Lipfert for her
never-ending help in organizational tasks. The excellent advices for improvement of
manuscripts as well as the critical and valuable suggestions by Dr. Armin R. Ofial are
gratefully acknowledged.

Acknowledgment
Additionally, I want to thank my colleagues from the group of Professor Dr. Paul Knochel. I
really have profited from their expertise in organometallic chemistry and I will never forget
the great parties where I was always welcome.

I am also very grateful for the support of all my friends and I want to thank particularly
Sebastian Bernhardt and Garwin Pichler, who accompanied me throughout my chemistry
studies. Your illustrious companionship always kept my spirits high during the sometimes
exhausting daily routine of chemistry.

For the efficient and fast proofreading of this thesis, I am very grateful to Dr. Martin Breugst,
Dr. Tanja Kanzian, Dominik Allgäuer, Tobias Nigst, and Francisco Corral.

Last but not least, I want to thank my family for the unique and fantastic support. I cannot
overemphasize my gratitude for your help and encouragement. In particular, I am deeply
indepted to my parents, who were backing me all the way. This thesis is dedicated to you!
Thank you very much!
Publications
Publications

Nucleophilicities of the Anions of Arylacetonitriles and Arylpropionitriles in Dimethyl
Sulfoxide
O. Kaumanns, R. Appel, T. Lemek, F. Seeliger, H. Mayr, J. Org. Chem. 2009, 74, 75-81.

Nucleophilicity Parameters for Phosphoryl-Stabilized Carbanions and Phosphorus
Ylides: Implications for Wittig and Related Olefination Reactions
R. Appel, R. Loos, H. Mayr, J. Am. Chem. Soc. 2009, 131, 704-714.

How Does Electrostatic Activation Control Iminium Catalyzed Cyclopropanations?
[Wie werden Iminium-katalysierte Cyclopropanierungen durch elektrostatische
Aktivierung gesteuert?]
S. Lakhdar, R. Appel, H. Mayr, Angew. Chem. 2009, 121, 5134-5137; Angew. Chem. Int. Ed.
2009, 48, 5034-5037.

Nucleophilic Reactivities of Sulfur Ylides and Related Carbanions: Comparison with
Structurally Related Organophosphorus Compounds
R. Appel, H. Mayr, Chem. Eur. J. 2010, 16, 8610-8614.

Scope and Limitations of Cyclopropanations with Sulfur Ylides
R. Appel, N. Hartmann, H. Mayr, J. Am. Chem. Soc. 2010, 132, 17894-17900.

Quantification of the Electrophilic Reactivities of Aldehydes, Imines, and Enones
R. Appel, H. Mayr, J. Am. Chem. Soc. 2011, submitted.

Conference Contributions
Conference Contributions

st03/2008 1 workshop of the Sonderforschungsbereich 749, Wildbad Kreuth, Germany,
oral presentation: “Ambident Reactivity of α,β-Unsaturated Carbonyl
Compounds; From the Free Carbanion to the Organometallic Species”

nd09/2008 2 EuCheMS Chemistry Congress, Torino, Italy, poster presentation:
“Nucleophilic Reactivities of Wittig Ylides and Phosphoryl-Stabilized
Carbanions”

02/2009 International Symposium on Modern Organic Chemistry, Monastir, Tunesia,
oral- and poster presentation: “Nucleophilicity Parameters for Phosphoryl-
Stabilized Carbanions and Phosphorus Ylides: Implications for Wittig and
Related Olefination Reactions”

03/2009 Synthesefest, Munich, Germany, poster presentation: “Nucleophilicity
Parameters for Phosphoryl-Stabilized Carbanions and Phosphorus Ylides:
Implications for Wittig and Related Olefination Reactions”

03/2010 International Meeting of the Sonderforschungsbereich 749, Kloster Irsee,
Germany, oral- and poster presentation: “Nucleophilicity Parameters for Sulfur
Ylides: Reference Compounds for Elucidating the Ambident Reactivities of α,β-
Unsaturated Carbonyl Compounds and Imines”

th07/2010 9 International Symposium on Carbanion Chemistry, Florence, Italy, oral
presentation: “Nucleophilic Reactivites of Sulfur Ylides and Related Carbanions:
Comparison with Structurally Related Organophosphorus Compounds”

Table of Contents
Table of Contents

Chapter 1: Summary 1

Chapter 2: Introduction 19

Chapter 3: Nucleophilicity Parameters for Phosphoryl-Stabilized 27
Carbanions and Phosphorus Ylides: Implications for Wittig and
Related Olefination Reactions

Chapter 4: Nucleophilic Reactivities of Sulfur Ylides and Related 93
Carbanions: Comparison with Structurally Related
Organophosphorus Compounds

Chapter 5: Scope and Limitations of Cyclopropanations with Sulfur Ylides 129

Chapter 6: How Does Electrostatic Activation Control Iminium Catalyzed 187
Cyclopropanations?

Quantification of the Electrophilic Reactivities of Aldehydes, Chapter 7: 201
Imines, and Enones

Chapter 8: Ambident Electrophilicity of a Cinnamaldehyde-Derived Imine 271

Chapter 9: Nucleophilicities of the Anions of Arylacetonitriles and 311
Arylpropionitriles in Dimethyl Sulfoxide

Chapter 10: Nucleophilic Reactivities of Alkali Cyclopentadienides 347
(CpK, CpNa, CpLi)

Chapter 1: Summary
Chapter 1: Summary
1 General
Many organic reactions can be classified as nucleophile-electrophile combinations, the rates
–1 –1of which can be described by eq 1, where k is the second-order rate constant in M s , s is 20°C
a nucleophile-specific slope parameter, N is a nucleophilicity parameter, and E is an
electrophilicity parameter.

log k = s(N + E) (1) 20°C

Based on this correlation equation, the reactivities of many different classes of nucleophiles
have already been quantified and compared. On the contrary, only a rather limited amount of
electrophiles including carbocations, benzhydrylium ions, cationic metal -complexes, and
electron-deficient Michael accept