Publicaiton

Publication lists

37. “Visualization of the sequence of changes in the full wavenumber range by two-dimensional correlation spectroscopy”, K. Ban, D. Miyata, Y. Matsumoto, S. Tahara, H. Takahashi, S. Morita, T. Nakabayashi*, Chemical Physics Letters, 833, 140930 (2023).

36. “IR cavity ringdown spectroscopy and density functional theory calculations of pyrrole – diethyl ketone clusters: Impacts of carbon-chain flexibility on the diversity of N-H…O=C hydrogen bond”, Y. Matsumoto*, K. Honma, Physical Chemistry Chemical Physics, 25, 19633-19647 (2023).

35. “Microhydration of the pyrrole cation (Py+) revealed by IR spectroscopy: Ionization-induced rearrangement of the hydrogen-bonded network of Py+(H2O)2“, A. Dashjargal, Y. Matsumoto*, O. Dopfer*, The Journal of Physical Chemistry A, 127, 2523-2535 (2023).

34. “A Comprehensive Infrared Spectroscopic and theoretical Study on Phenol-Ethyldimethylsilane Dihydrogen-Bonded Clusters in the S0 and S1 States”, M. Uchida, T. Shimizu, R. Shibutani, Y. Matsumoto, H. Ishikawa, The Journal of Chemical Physics, 153, 104305 (2020).

33. “An effective Hamiltonian analysis of a Franck-Condon-like pattern in the IR spectra of phenol-alkylsilane dihydrogen-bonded clusters in the S1 state”, M. Uchida, T. Shimizu, Y. Matsumoto, H. Ishikawa, The Journal of Chemical Physics, 152, 194306 (2020).

32. “IR Cavity Ringdown Spectroscopy and Density Functional Theory for Jet-Cooled Pyrrole – Cyclopentanone Binary Clusters: Effect of Pseudorotation on N-H…O=C Hydrogen Bonds”, Y. Matsumoto*, K. Honma, The Journal of Physical Chemistry A, 124, 2436-2448 (2020).

31. “Ab initio fragment molecular orbital-based molecular dynamics (FMO-MD) simulations of (NH3)32 cluster: effects of electron correlation”, M. Ninomiya, H. Doi, Y. Matsumoto, Y. Mochizuki, Y. Komeiji, Bulletin of the Chemical Society of Japan, 93, 553-560 (2020).

30. “Two-Dimensional Correlation IR Spectroscopy of Gas-Phase Pyrrole Clusters in a Supersonic Jet: Treatment of Sharp Bands on a Broad Background”, Y. Matsumoto*, S. Tezuka, Applied Spectroscopy, 74, 408-16 (2020).

29. “Aromatic Charge Resonance Interaction Probed by Infrared Spectroscopy”, K. Chatterjee, Y. Matsumoto, O. Dopfer, Angewandte Chemie International Edition, 58, 3351-3355 (2019).

28. “Gabriel Synthesis of Hexakis(aminomethyl)benzene and Its Derivatization”, J. Masuda, S. Kondo, Y. Matsumoto, M. Yamanaka, Chemistry Select, 3, 6112-6115 (2018).

27. “Synthesis of a C3-symmetric tris-imine via dynamic covalent bond formation between a trialdehyde and a triamine”, K. Nakada, S. Kondo, Y. Matsumoto, M. Yamanaka, Tetrahedron Letters, 58, 4612-4616 (2017).

26. “Identification of crystalline structures of jet-cooled acetylene large clusters studied by two-dimensional correlation infrared spectroscopy”, Y. Matsumoto*, R. Yoshiura, K. Honma, The Journal of Chemical Physics, 147, 044302 (2017).

25. “Microsolvation of the pyrrole cation (Py+) with nonpolar and polar ligands: Infrared spectra of Py+-Ln with L=Ar, N2, and H2O (n≤3)”, M. Schutz, Y. Matsumoto, A. Bouchet, M. Ozturk, O. Dopfer, Physical Chemistry Chemical Physics, 19, 3970-3986 (2017).

24. “Reaction dynamics of Al + O2 → AlO + O studied by a crossed-beam velocity map imaging technique: Vib-rotational state selected angular-kinetic energy distribution”, K. Honma, K. Miyashita, Y. Matsumoto, The Journal of Chemical Physics, 140, 214304 (2014).

23. “Cyclic structure of pyrrole – acetone binary clusters: Comparative study of the N-H…O=C hydrogen bond”, Y. Matsumoto*, J. Iwamoto, K. Honma, Chemical Physics Letters, 578, 43-48 (2013).

22. “Solvated structures of pyrrole-acetonitrile binary clusters studied by infrared cavity ringdown spectroscopy”, J. Iwamoto, Y. Matsumoto*, K. Honma, Chemical Physics, 419, 184-192 (2013).

21. “Fish-Bite structure by three-dimensional hydrogen-bond acceptor: IR spectroscopy of pyrrole & N-methylpyrrole binary clusters”, Y. Matsumoto*, S. Murakami, K. Honma, The Journal of Chemical Physics, 137, 074307 (2012).

20. “Contribution of the pi electron to the N-H….O=C hydrogen bond; IR spectroscopic studies of the jet-cooled pyrrole-acetone binary clusters”, Y. Matsumoto*, J. Iwamoto, K. Honma, Physical Chemistry Chemical Physics, 14, 12938-12947 (2012).

19. “Reaction dynamics of Mo + O2 → MoO + O studied by a crossed-beam velocity map imaging technique”, K. Honma, Y. Matsumoto, The Journal of Chemical Physics, 136, 034301 (2012).

18. “Hydrogen-bonded structures for self-aggregates of 2,5-dimethylpyrrole and its binary clusters with pyrrole studied by IR cavity ringdown spectroscopy”, Y. Matsumoto*, K. Honma, Physical Chemistry Chemical Physics, 13, 13962-13971 (2011).

17. “Time-sliced ion-velocity imaging study of the reaction Y + O2 → YO + O”, K. Honma, Y. Matsumoto, Physical Chemistry Chemical Physics, 13, 8236-8244 (2011).

16. “Crystalline structures in large ammonia clusters studied by IR cavity ringdown spectroscopy and a density functional theory calculation”, Y. Matsumoto*, K. Honma, Chemical Physics Letters, 490, 9-13 (2010).

15. “Excited state reaction dynamics of Ti(a5FJ)+O2 → TiO(A,B)+O studied by a crossed-beam technique”, R. Yamashiro, Y. Matsumoto, K. Honma, The Journal of Chemical Physics, 131, 044316 (2009).

14. “Hydrogen-bonded structures of pyrrole-solvent clusters: Infrared cavity ringdown spectroscopy and quantum chemical calculations”, Y. Matsumoto*, K. Honma, The Journal of Chemical Physics, 130, 054311 (2009).

13. “Reaction dynamics of Si(3PJ) + O2 → SiO(X1S+) + O studied by a crossed-beam laser-induced fluorescence technique”, R. Yamashiro, Y. Matsumoto, K. Honma, The Journal of Chemical Physics, 128, 084308 (2008).

12. “NH stretching vibrations of pyrrole clusters studied by infrared cavity ringdown spectroscopy”, Y. Matsumoto*, K. Honma, The Journal of Chemical Physics, 127, 184310 (2007).

11. “Reaction dynamics of V(a4FJ)+NO→VO(X4S)+N studied by a crossed-beam laser-induced fluorescence technique”, M. Ishida, R. Yamashiro, Y. Matsumoto, K. Honma, The Journal of Chemical Physics, 124, 204316 (2006).

10. “Detection of O(3PJ) atoms formed by reaction, Al + O2 → AlO + O under crossed-beam condition”, M. Ishida, T. Higashiyama, Y. Matsumoto, K. Honma, The Journal of Chemical Physics, 122, 204312 (2005).

9. “Reaction dynamics of Y + O2 → YO (X,A’,A) + O (3PJ) studied by the crossed-beam technique”, T. Higashiyama, M. Ishida, Y. Matsumoto, K. Honma, Physical Chemistry Chemical Physics, 7, 2481 (2005).

8. “One- and two-color photoelectron imaging of the CO molecule via the B1S+ state”, H. Katayanagi, Y. Matsumoto, C. A. de Lange, M. Tsubouchi, T. Suzuki, The Journal of Chemical Physics, 119, 3737-3744 (2003).

7. “Femtosecond photoelectron imaging of pyridazine: S1 lifetime and (3s (n-1),3p (n-1)) Rydberg state energetics”, Y. Matsumoto, S. K. Kim, T. Suzuki, The Journal of Chemical Physics, 119, 300-303 (2003).

6. “Structure and Photoinduced Excited State Keto-Enol Tautomerization of 7-Hydroxyquinoline-(CH3OH)n clusters”, Y. Matsumoto, T. Ebata, N. Mikami, The Journal of Physical Chemistry A, 106, 5591-5599 (2002).

5. “Photofragment detected IR spectroscopy (PFDIRS) for the OH stretching vibrations of the hydrogen-bonded clusters in S1 state –Application to 2-naphthol-B (B = H2O and CH3OH) clusters-”, Y. Matsumoto, T. Ebata, N. Mikami, The Journal of Physical Chemistry A (Letter), 105, 5727-5730 (2001).

4. “OH stretching vibrations and hydrogen-bonded structures of 7-hydroxyquinoline-(H2O)1-3 investigated by IR-UV double-resonance spectroscopy”, Y. Matsumoto, T. Ebata, N. Mikami, Chemical Physics Letters, 338, 52-60 (2001).

3. “Autoionization-Detected Infrared Spectroscopy of Jet-Cooled Naphthol Cations”, E. Fujimaki, Y. Matsumoto, A. Fujii, T. Ebata, N. Mikami, The Journal of Physical Chemistry A, 104, 7227-7232 (2000).

2. “Structures and vibrations of 2-naphthol-(NH3)n (n=1-3) hydrogen-bonded clusters investigated by IR-UV double-resonance spectroscopy”, Y. Matsumoto, T. Ebata, N. Mikami, Journal of Molecular Structures, 552, 257-271 (2000).

1. “Characterizations of the hydrogen-bonded structures of 2-naphthol-(H2O)n (n=0-3 and 5) clusters by infrared-ultraviolet double-resonance spectroscopy”, Y. Matsumoto, T. Ebata, N. Mikami, The Journal of Chemical Physics, 109, 6303-6311 (1998).