Holger Möltgen scite author profile

The chlorosomal light-harvesting antennae of green phototrophic bacteria consist of large supramolecular aggregates of bacteriochlorophyll c (BChl c). The supramolecular structure of (3(1)-R/S)-BChl c on highly oriented pyrolytic graphite (HOPG) and molybdenum disulfide (MoS2) has been investigated by scanning tunneling microscopy (STM). On MoS2, we observed single BChl c molecules, dimers or tetramers, depending on the polarity of the solvent. On HOPG, we observed extensive self-assembly of the dimers and tetramers. We propose C=O...H-O...Mg bonding networks for the observed dimer chains, in agreement with former ultraviolet-visible and infrared spectroscopic work. The BChl c moieties in the tetramers are probably linked by four C=O...H-O hydrogen bonds to form a circle and further stabilized by Mg...O-H bondings to underlying BChl c layers. The tetramers form highly ordered, distinct chains and extended two-dimensional networks. We investigated semisynthetic chlorins for comparison by STM but observed that only BChl c self-assembles to well-structured large aggregates on HOPG. The results on the synthetic chlorins support our structure proposition.

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Resonance enhanced scanning tunneling (REST) spectroscopy of molecular aggregates on graphite

Möltgen

Kleinermanns

2003

Phys. Chem. Chem. Phys.

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Scanning tunneling microscopy of laser excited graphite

et al. 2000

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Holger Möltgen

Characterization of laser-ablated and chemically reduced silver colloids in aqueous solution by UV/VIS spectroscopy and STM/SEM microscopy

Structure investigations on assembled astaxanthin molecules

Self-assembly of [Et,Et]-Bacteriochlorophyll cF on Highly Oriented Pyrolytic Graphite Revealed by Scanning Tunneling Microscopy†¶

Resonance enhanced scanning tunneling (REST) spectroscopy of molecular aggregates on graphite

Scanning tunneling microscopy of laser excited graphite

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