Crystal Structure of a Rigid Ferrocence-based Macrocycle from High-Resolution X-ray Powder Diffraction.

Dinnebier, R.E.; Ding, L.; Ma, K.; Neumann, M.A.; Tanpipat, N.; Leusen, Frank J.J.; Stephens, P.W.; Wagner, M.

Publication date

2001

Author

Dinnebier, R.E.
Ding, L.
Ma, K.
Neumann, M.A.
Tanpipat, N.
Leusen, Frank J.J.
Stephens, P.W.
Wagner, M.

Keyword

Crystal Structure
High-Resolution X-ray Powder Diffraction
Organometallics

Peer-Reviewed

Yes

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Abstract

A macrocycle, 6, has been synthesized in high yield from 2,5-di(pyrazol-1-yl)hydroquinone and 1,1`-fc[B(Me)NMe2]2 {fc = Fe(C5H4)2}. The molecule incorporates two redox-active 1,1`-ferrocenylene units in its backbone and contains four chiral boron centers, each of them possessing the same configuration. It is demonstrated that crystal structures of organometallics of moderate complexity can be solved from high-resolution X-ray powder diffraction patterns, once the connectivity between the functional groups is known.

URI

http://hdl.handle.net/10454/3984

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Citation

Dinnebier, R.E., Ding, L., Ma, K. and Leusen, F.J.J. (2001). Crystal Structure of a Rigid Ferrocence-based Macrocycle from High-Resolution X-ray Powder Diffraction. Organometallics. Vol. 20, No. 26, pp. 5642-5647.

Link to publisher’s version

http://pubs.acs.org/doi/full/10.1021/om0105066

Type

Article

Collections

Life Sciences Publications