Ying Guo, Xibin Gu, Fangtong Zhang, Ralf I. Kaiser Department of Chemistry University of Hawai’i Honolulu, HI 96822

Ying Guo, Xibin Gu, Fangtong Zhang, Ralf I. Kaiser Department of Chemistry University of Hawai’i Honolulu, HI 96822 kaiser@gold.chem.hawaii.edu http://www.chem.hawaii.edu/Bil301/welcome.html Reaction Dynamics in the C( 3 P) + C 2 H 2 (X 1  g + ) System

Introduction c-C 3 H(X 2 B 2 ) l-C 3 H(X 2  ) Science, 274, 1508 (1996) 8.8, 28, 45 kJmol -1

Introduction l-C 3 (X 1  g + ) + H 2 (X 1  g + )  R G = - 124 kJmol -1 relative energy, kJmol -1

Introduction l-C 3 (X 1  g + ) + H 2 (X 1  g + ) Faraday Discussions 119, 27 (2001) Faraday Discussions 119, 51 (2001) Mebel et al. JACS 120, 5751 (1998)  C 3 formation via ISC

Introduction relative energy, kJmol -1

Open Questions

C2H2C2H2 903  316.0  0.3 -- C( 3 P)/Ne 1063  104.9  0.38.0  0.161.5  0.3 C( 3 P)/He 2037  254.9  0.220.4  0.443.8  0.4 C( 3 P)/He 2581  282.9  0.130.7  0.637.2  0.4 13 C 2 H 2 890  516.0  0.3 -- C( 3 P)/Ne 1057  215.0  0.38.0  0.263.0  0.6 C( 3 P)/He 1950  184.4  0.119.3  0.346.8  0.4 C( 3 P)/He 2537  393.3  0.130.4  0.939.3  0.6 C2D2C2D2 890  516.0  0.3 -- C( 3 P)/Ne 1059  124.9  0.38.0  0.163.0  0.4 C( 3 P)/He 1978  145.1  0.219.8  0.346.4  0.4 C( 3 P)/He 2566  373.3  0.131.0  0.839.0  0.6 C 2 HD 890  516.0  0.3 -- C( 3 P)/Ne 1080  105.1  0.38.1  0.161.7  0.4 C( 3 P)/He 1976  175.3  0.219.5  0.345.4  0.4 C( 3 P)/He 2566  453.2  0.230.6  1.038.0  0.7 beamv p, ms -1 SE C, kJmol -1  CM 37 36 39 38 36 38 37 36 m/z

C( 3 P) + C 2 D 2 (X 1  g + ) c-C 3 D(X 2 B 2 ) + D( 2 S)  R G = - 2 kJmol -1 l-C 3 D(X 2  ) + D( 2 S)  R G = + 8 kJmol -1 l-C 3 (X 1  g + ) + D 2 (X 1  g + )  R G = - 126 kJmol -1 c-C 3 (X 3 A 2 ’ ) + D 2 (X 1  g + )  R G = - 43 kJmol -1 Ochsenfeld et al. JCP 106, 4141 (1997) Mebel et al. CPL 360, 139 (2002)

Crossed Molecular Beams Setup

C( 3 P) + C 2 H 2 (8 kJmol -1 ; m/z = 37) C3HC3H C4HC4H (usec)

C( 3 P) + C 2 H 2 (8 kJmol -1 ; m/z = 36) C3HC3H C4HC4H C 3 (R) C 3 (E) (usec)

C( 3 P) + C 2 H 2 (20.4 kJmol -1 ; m/z = 37) C3HC3H C4HC4H (usec)

C( 3 P) + C 2 H 2 (20.4 kJmol -1 ; m/z = 36) C3HC3H C4HC4H C3HC3H C4HC4H C 3 (R) C 3 (E) (usec)

C( 3 P) + C 2 H 2 (30.7 kJmol -1 ; m/z = 37) C3HC3H C4HC4H (usec)

C( 3 P) + C 2 H 2 (30.7 kJmol -1 ; m/z = 36) C3HC3H C4HC4H C3HC3H C4HC4H C 3 (R) C 3 (E) (usec)

C( 3 P) + C 2 H 2 m/z = 37m/z = 36 C3HC3H C4HC4H C 3 (R) C 3 (E)

C( 3 P) + 13 C 2 H 2

m/z = 39m/z = 38 C3HC3H C4HC4H C 3 (R) l-C 3 (X 1  g + ) + H 2 (X 1  g + )

C( 3 P) + C 2 H 2 / 13 C 2 H 2 C 3 H// 13 C 2 CH C( 3 P)  H 13 C 2 C C( 3 P)  H 2

C( 3 P) + C 2 H 2 / 13 C 2 H 2

Summary

Ionization Potentials of C 3 H Isomers C2H2C2H2 C3HC3H Chemical Dynamics Beamline Advanced Light Source L. Belau, S. Leone, M. Ahmed, R.I. Kaiser

C3HC3H C4HC4H C4H2C4H2 C6H2C6H2

B. Braams J. Bowman Ionization Potentials IP(l-C 3 H) = 9.06 eV IP(c-C 3 H) = 9.66 eV  0.1 eV Experiments* IP(l-C 3 H) = 9.1 eV IP(c-C 3 H) = 9.6 eV  0.1 eV *L. Belau S. Leone M. Ahmed R.I. Kaiser

Acknowledgements Y. Guo, F. Zhang, X. Gu L. Belau S. Leone M. Ahmed B. Braams J. Bowman

Ying Guo, Xibin Gu, Fangtong Zhang, Ralf I. Kaiser Department of Chemistry University of Hawai’i Honolulu, HI 96822

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Ying Guo, Xibin Gu, Fangtong Zhang, Ralf I. Kaiser Department of Chemistry University of Hawai’i Honolulu, HI 96822

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