Fast Molecular Compression by a Hyperthermal Collision Gives Bond-Selective Mechanochemistry

Fast Molecular Compression by a Hyperthermal Collision Gives Bond-Selective Mechanochemistry

Using electrospray ion beam deposition, we collide the complex molecule Reichardt's dye (C_{41}H_{30}NO^{+}) at low, hyperthermal translational energy (2-50 eV) with a Cu(100) surface and image the outcome at single-molecule level by scanning tunneling microscopy. We observe bond-selective reac...

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Veröffentlicht in:Physical review letters 2021-02, Vol.126 (5), p.056001-056001, Article 056001
Hauptverfasser: Krumbein, Lukas, Anggara, Kelvin, Stella, Martina, Michnowicz, Tomasz, Ochner, Hannah, Abb, Sabine, Rinke, Gordon, Portz, André, Dürr, Michael, Schlickum, Uta, Baldwin, Andrew, Floris, Andrea, Kern, Klaus, Rauschenbach, Stephan
Format: Artikel
Sprache:eng
Schlagworte:
Bends
Collision dynamics
Ion beams
Kinetic energy
Reaction products
Scanning tunneling microscopy
Thermalization (energy absorption)
Time
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Zusammenfassung:Using electrospray ion beam deposition, we collide the complex molecule Reichardt's dye (C_{41}H_{30}NO^{+}) at low, hyperthermal translational energy (2-50 eV) with a Cu(100) surface and image the outcome at single-molecule level by scanning tunneling microscopy. We observe bond-selective reaction induced by the translational kinetic energy. The collision impulse compresses the molecule and bends specific bonds, prompting them to react selectively. This dynamics drives the system to seek thermally inaccessible reactive pathways, since the compression timescale (subpicosecond) is much shorter than the thermalization timescale (nanosecond), thereby yielding reaction products that are unobtainable thermally.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.126.056001