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CO cofeeding affects product distribution in CH<sub>3</sub>Cl coupling over ZSM-5 zeolite: pressure twists the plot
Zhang, Z., Vanni, M., Wu, X., Hemberger, P., Bodi, A., Mitchell, S., & Pérez-Ramírez, J. (2024). CO cofeeding affects product distribution in CH3Cl coupling over ZSM-5 zeolite: pressure twists the plot. Angewandte Chemie International Edition, e202401060 (7 pp.). https://doi.org/10.1002/anie.202401060
Conformer-specific photoelectron spectroscopy of carbonic acid: H<sub>2</sub>CO<sub>3</sub>
Kanayama, K., Nakamura, H., Maruta, K., Bodi, A., & Hemberger, P. (2024). Conformer-specific photoelectron spectroscopy of carbonic acid: H2CO3. Journal of Physical Chemistry Letters, 2658-2664. https://doi.org/10.1021/acs.jpclett.4c00343
Gas phase ionization energy of heptacene
Wagner, M. S., Peisert, H., Chassé, T., Hemberger, P., & Bettinger, H. F. (2024). Gas phase ionization energy of heptacene. Journal of Physical Chemistry Letters, 15(9), 2332-2336. https://doi.org/10.1021/acs.jpclett.3c03580
What a difference a chlorine makes: the remarkable unimolecular ion chemistry of phenyl formate and phenyl chloroformate
Lowe, B., Cardona, A. L., Salas, J., Bodi, A., Mayer, P. M., & Burgos Paci, M. A. (2024). What a difference a chlorine makes: the remarkable unimolecular ion chemistry of phenyl formate and phenyl chloroformate. Journal of Mass Spectrometry, 59(2), e5004 (9 pp.). https://doi.org/10.1002/jms.5004
The formation, reactivity and transformation pathways of formaldehyde in the methanol-to-hydrocarbon conversion
Paunović, V., Wu, X., Maggiulli, L., Ferri, D., Hemberger, P., Bodi, A., & van Bokhoven, J. A. (2024). The formation, reactivity and transformation pathways of formaldehyde in the methanol-to-hydrocarbon conversion. Catalysis Science and Technology, 14(5), 1216-1228. https://doi.org/10.1039/D3CY01786A
Gas-phase preparation of the dibenzo[e,<em>l</em>]pyrene (C<sub>24</sub>H<sub>14</sub>) butterfly molecule <em>via</em> a phenyl radical-mediated ring annulation
Goettl, S. J., Turner, A. M., Sun, B. J., Chang, A. H. H., Hemberger, P., & Kaiser, R. I. (2024). Gas-phase preparation of the dibenzo[e,l]pyrene (C24H14) butterfly molecule via a phenyl radical-mediated ring annulation. Chemical Communications, 60(11), 1404-1407. https://doi.org/10.1039/d3cc05371g
Formaldehyde-induced deactivation of ZSM5 catalysts during the methanol-to-hydrocarbons conversion
Pare, C. W. P., Rzepka, P., Hemberger, P., Bodi, A., Hauert, R., van Bokhoven, J. A., & Paunović, V. (2023). Formaldehyde-induced deactivation of ZSM5 catalysts during the methanol-to-hydrocarbons conversion. ACS Catalysis, 14(1), 463-474. https://doi.org/10.1021/acscatal.3c04279
Enlightening salt: enthalpy of formation of gaseous sodium chloride by photoelectron photoion coincidence spectroscopy
Wu, X., Hemberger, P., & Bodi, A. (2023). Enlightening salt: enthalpy of formation of gaseous sodium chloride by photoelectron photoion coincidence spectroscopy. Molecular Physics, e2286308 (10 pp.). https://doi.org/10.1080/00268976.2023.2286308
The unimolecular chemistry of methyl chloroformate ions and neutrals: a story of near-threshold decomposition
Lowe, B., Cardona, A. L., Bodi, A., Mayer, P. M., & Burgos Paci, M. A. (2023). The unimolecular chemistry of methyl chloroformate ions and neutrals: a story of near-threshold decomposition. Journal of the American Society for Mass Spectrometry, 34(12), 2831-2839. https://doi.org/10.1021/jasms.3c00334
Radical intermediates and stable products in acrolein pyrolysis
Muzika, M., Genossar-Dan, N., Fux, D., Har Lavan, S., Zamir, U., Rozenberg, I., … Baraban, J. H. (2023). Radical intermediates and stable products in acrolein pyrolysis. Environmental Chemistry Letters. https://doi.org/10.1007/s10311-023-01661-8
Photoelectron spectroscopic study of 2-naphthylnitrene and its thermal rearrangement to cyanoindenes
Saraswat, M., Portela-Gonzalez, A., Mendez-Vega, E., Karir, G., Sander, W., & Hemberger, P. (2023). Photoelectron spectroscopic study of 2-naphthylnitrene and its thermal rearrangement to cyanoindenes. Physical Chemistry Chemical Physics, 25(45), 31146-31152. https://doi.org/10.1039/d3cp04064j
Threshold photoelectron spectroscopy and dissociative photoionization of benzonitrile
Kamer, J., Schleier, D., Donker, M., Hemberger, P., Bodi, A., & Bouwman, J. (2023). Threshold photoelectron spectroscopy and dissociative photoionization of benzonitrile. Physical Chemistry Chemical Physics, 42(25), 29070-29079. https://doi.org/10.1039/d3cp03977c
Thermal decomposition of 2- and 4-iodobenzyl iodide yields fulvenallene and ethynylcyclopentadienes: a joint threshold photoelectron and matrix isolation spectroscopic study
Saraswat, M., Portela-Gonzalez, A., Karir, G., Mendez-Vega, E., Sander, W., & Hemberger, P. (2023). Thermal decomposition of 2- and 4-iodobenzyl iodide yields fulvenallene and ethynylcyclopentadienes: a joint threshold photoelectron and matrix isolation spectroscopic study. Journal of Physical Chemistry A, 127(41), 8574-8583. https://doi.org/10.1021/acs.jpca.3c04688
Beyond vanilla: the dissociation mechanism of vanillin in four charge states
Wu, X., Salionov, D., Hemberger, P., Vogel, F., Bodi, A., & Bjelić, S. (2023). Beyond vanilla: the dissociation mechanism of vanillin in four charge states. Computational and Theoretical Chemistry, 1229, 114340 (9 pp.). https://doi.org/10.1016/j.comptc.2023.114340
Almost clean formation of indene in the allyl + <em>o</em>-benzyne reaction
McCabe, M. N., Hemberger, P., Reusch, E., Bodi, A., & Bouwman, J. (2023). Almost clean formation of indene in the allyl + o-benzyne reaction. In V. Mennella & C. Joblin (Eds.), Astrophysics and space science proceedings: Vol. 59. European conference on laboratory astrophysics ECLA2020. The interplay of dust, ice, and gas in space (pp. 191-195). https://doi.org/10.1007/978-3-031-29003-9_21
Photoion mass-selected threshold photoelectron spectroscopy to detect reactive intermediates in catalysis: from instrumentation and examples to peculiarities and a database
Hemberger, P., Pan, Z., Wu, X., Zhang, Z., Kanayama, K., & Bodi, A. (2023). Photoion mass-selected threshold photoelectron spectroscopy to detect reactive intermediates in catalysis: from instrumentation and examples to peculiarities and a database. Journal of Physical Chemistry C, 127(34), 16751-16763. https://doi.org/10.1021/acs.jpcc.3c03120
Lutidyl radical photoelectron spectra reveal additive substituent effects on benzyl derivatives' ionization energy
Kanayama, K., Fernholz, C., Nakamura, H., Maruta, K., Bodi, A., & Hemberger, P. (2023). Lutidyl radical photoelectron spectra reveal additive substituent effects on benzyl derivatives' ionization energy. ChemPhysChem, 24(20), e202300359 (9 pp.). https://doi.org/10.1002/cphc.202300359
Tuning the zeolite acidity enables selectivity control by suppressing ketene formation in lignin catalytic pyrolysis
Pan, Z., Puente-Urbina, A., Batool, S. R., Bodi, A., Wu, X., Zhang, Z., … Hemberger, P. (2023). Tuning the zeolite acidity enables selectivity control by suppressing ketene formation in lignin catalytic pyrolysis. Nature Communications, 14(1), 4512 (9 pp.). https://doi.org/10.1038/s41467-023-40179-z
Photoelectron photoion coincidence spectroscopy of biradicals
Fischer, I., & Hemberger, P. (2023). Photoelectron photoion coincidence spectroscopy of biradicals. ChemPhysChem, 24(16), e202300334 (16 pp.). https://doi.org/10.1002/cphc.202300334
Direct observation of the ethyl radical in the pyrolysis of ethane
Genossar-Dan, N., Atlas, S., Fux, D., Har Lavan, S., Zamir, U., Rozenberg, I., … Baraban, J. H. (2023). Direct observation of the ethyl radical in the pyrolysis of ethane. Angewandte Chemie International Edition, 62(32), e202305881 (6 pp.). https://doi.org/10.1002/anie.202305881
 

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