C. Meiners
Max Planck Society
7 Papers
187 Citations
C. Meiners is an academic researcher from Max Planck Society. The author has contributed to research in topics: Chirality (chemistry) & Scanning tunneling microscope. The author has an hindex of 7, co-authored 7 publications.
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Papers
Scanning tunneling microscopy: a unique tool in the study of chirality, dynamics, and reactivity in physisorbed organic monolayers.
S. De Feyter,Andre J. Gesquiere,Mohamed M. S. Abdel-Mottaleb,P. C. M. Grim,F. C. De Schryver,C. Meiners,M. Sieffert,Suresh Valiyaveettil,Klaus Müllen +8 more
TL;DR: Making use of a fast scanning mode, dynamic processes in these adlayers have been visualized and the effect of molecular chirality on the monolayer formation and provided a unique way to study chemical reactions at the liquid-graphite interface.
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Expression of Chirality by Achiral Coadsorbed Molecules in Chiral Monolayers Observed by STM.
Steven De Feyter,P. C. M. Grim,Markus Rücker,P. Vanoppen,C. Meiners,M. Sieffert,Suresh Valiyaveettil,Klaus Müllen,Frans C. De Schryver +8 more
TL;DR: The supramolecular packing mode of physisorbed monolayers built up by chiral isophthalic acid derivatives and coadsorbed achiral solvent molecules was imaged at the liquid/graphite interface with scanning tunneling microscopy (STM).
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Expression of chirality and visualization of stereogenic centers by scanning tunneling microscopy
S. De Feyter,Andre J. Gesquiere,P. C. M. Grim,F. C. De Schryver,Suresh Valiyaveettil,C. Meiners,M. Sieffert,Klaus Müllen +7 more
TL;DR: In this article, the enantiomers of a chiral terephthalic acid derivative, 2,5-bis[[10-(2-methylbutoxy)decyl]oxy]terephthalmic acid, have been characterized on graphite (HOPG) at the same time.
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Liquid Crystalline Perylene-3,4-Dicarboximide Derivatives with High Thermal and Photochemical Stability
TL;DR: In this article, three new perylene-3,4,dicarboximide chromophores5a-c have been synthesized, characterized by high extinction coefficients and excellent thermal and photochemical stability.
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