Publications

ORCID iD 0000-0002-3956-3922

h-index 25 (Jul 2023)

Academic Theses

[1] “Magnetische Relaxationszeituntersuchungen an Protonen bei hoher Verdünnung, Aufklärung einiger bisher unverstandener Fälle”, Michael Hippler, Diploma thesis (Physics), Universität Karlsruhe, 1988.

[2] “Ultraviolet Laser Spectroscopy of Nitric Oxide: Analytical and Dynamical Applications”, Michael Hippler, PhD thesis (Chemistry), Heriot-Watt University, Edinburgh, 1993.

[3] “New Experimental Techniques for the Infrared Spectroscopy of Molecules in the Gas Phase”, Michael Hippler, Habilitation thesis (Physical Chemistry), ETH Zürich, 2001.

Refereed Publications

[4] “Nuclear Magnetic Resonance Study of Proton Relaxation in Liquid Formamide, and of its Intermolecular Structure”, M. Hippler and H.G. Hertz, Z. Phys. Chem. 175 (1992), 25-39.

[5] “Ultra-trace Analysis of NO by High-resolution Laser Fluorescence and Ionization Spectroscopy”, M. Hippler, A.J. Yates and J. Pfab, in “Optogalvanic Spectroscopy”, Institute of Physics Conference series No. 113 (IOP Publishing, Bristol 1991), 303-306.

[6] Communication to “Structure and Dynamics of Reactive Transition States”, M. Hippler and J. Pfab, Faraday Discussions of the Chemical Society No. 91 (1991), 131-133.

[7] “Photodissociation of jet-cooled methyl and t-butyl nitrite near 380 nm”, M. Hippler, F.A.H. Al-Janabi and J. Pfab, Chem. Phys. Letters 192 (1992), 173-178.

[8] “Electronic Absorption Spectrum of Methyl Nitrite in the Near-ultraviolet”, M. Hippler and J. Pfab, Journal of the Chemical Society, Faraday Transactions 88 (1992), 2109-2110.

[9] “Structured absorption spectrum and vibrational state-selectivity in the photodissociation of methyl nitrite in the near-UV”, M. Hippler, M.R.S. McCoustra and J. Pfab, Chem. Phys. Letters 198 (1992), 168-176.

[10] “The 355 nm laser photolysis of jet-cooled methyl nitrite (CH3ONO): Internal energy distributions of the NO fragment”, M.R.S. McCoustra, M. Hippler and J. Pfab, Chem. Phys. Letters 200 (1992), 451-458.

[11] “Optogalvanic spectroscopy of argon and wavelength calibration in the near-ultraviolet”, M. Hippler and J. Pfab, Optics Communications 97 (1993), 347-352.

[12] Communication to “Dynamics at the Gas/Solid Interface”, J. Pfab and M. Hippler, Faraday Discussions No. 96 (1993), 354-355.

[13] “Overtone Spectroscopy by vibrationally assisted dissociation and photofragment ionization”, M. Hippler and M. Quack, Chem. Phys. Letters 231 (1994), 75-80.

[14] “Detection and probing of nitric oxide (NO) by two-colour laser photoionisation (REMPI) spectroscopy on the A <- X transition”, M. Hippler and J. Pfab, Chem. Phys. Letters 243 (1995), 500-505.

[15] “Overtone Spectroscopy of Chloroform in a Supersonic Jet by Vibrationally Assisted Dissociation and Photofragment Ionization”, M. Hippler and M. Quack, Berichte der Bunsengesellschaft für Physikalische Chemie 99 (1995), 417-421.

[16] “Isotope selective overtone spectroscopy of CHCl3 by vibrationally assisted dissociation and photofragment ionization”, M. Hippler and M. Quack, J. Chem. Phys. 104 (1996), 7426-7430.

[17] “Intramolecular Energy Transfer from Isotope Selective Overtone Spectroscopy by Vibrationally Assisted Dissociation and Photofragment Ionization”, M. Hippler and M. Quack, Berichte der Bunsengesellschaft für Physikalische Chemie 101 (1997), 356-362.

[18] “Infrared multiphoton excitation, dissociation and ionization of C60”, M. Hippler, M. Quack, R. Schwarz, G. Seyfang, S. Matt and T. Märk, Chem. Phys. Letters 278 (1997), 111-120.

[19] “High-resolution cavity ring-down absorption spectroscopy of nitrous oxide and chloroform using a near-infrared cw diode laser”, Y. He, M. Hippler and M. Quack, Chem. Phys. Letters 289 (1998), 527-534.

[20] “Electronic spectroscopy of the C state of NO by laser multiphoton ionization: rotational structure of the C 2Pi (v’=0) <- X 2Pi (v”=0) two-photon band”, M. Hippler and J. Pfab, Mol. Phys. 94 (1998), 313-323.

[21] “Isotopomer-selective overtone spectroscopy by ionization detected IR+UV double resonance of jet-cooled aniline”, B. Fehrensen, M. Hippler and M. Quack, Chem. Phys. Letters 298 (1998), 320-328.

[22] “Interference in two-photon rotational line strengths of diatomic molecules”, M. Hippler, Mol. Phys. 97 (1999), 105-116.

[23] “Cw cavity ring-down infrared absorption spectroscopy in pulsed supersonic jets: nitrous oxide and methane”, M. Hippler and M. Quack, Chem. Phys. Letters 314 (1999), 273-281.

[24] “Vibrational Spectroscopy and ab initio calculations for the Fermi resonance structure in the CH chromophore of formamide”, M. Hippler, M. Quack and M. Willeke, preliminary report in Chimia 55 (2001), 587; comprehensive publication in preparation.

[25] “Proton relaxation and intermolecular structure of liquid formic acid: a nuclear magnetic resonance study”, M. Hippler, Phys. Chem. Chem. Phys. 4 (2002), 1457-1463.

[26] “High-Resolution FTIR and cw-Diode Laser Cavity Ring-Down Spectroscopy of the nu2+2nu3 Band of Methane Near 7510 cm-1 in Slit Jet Expansions and at Room Temperature”, M. Hippler and M. Quack, J. Chem. Phys. 116 (2002), 6045-6055.

[27] “Photochemical kinetics: Reaction orders and analogies with molecular beam scattering and cavity ring-down experiments”, M. Hippler, J. Chem. Educ. 80 (2003), 1074-1077.

[28] “Isotopomer-selective overtone spectroscopy of jet-cooled benzene by ionization detected IR + UV double resonance”, M. Hippler, R. Pfab, and M. Quack, J. Phys. Chem. A 107 (2003), 10743-10752.

[29] “Does a Photochemical Reaction Have a Kinetic Order?”, M. Hippler, J. Chem. Educ. 82 (2005), 37-38. DOI: 10.1021/ed082p37.3

[30] "Quantum-Chemical Study of CHCl3 - SO2 Association", M. Hippler, J. Chem. Phys. 123 (2005), 204311 (1-11).

[31] “Isotope Selective Infrared Spectroscopy and Intramolecular Dynamics”, M. Hippler and M. Quack; Ch. 11 in: Isotope Effects in Chemistry and Biology, Ed. by A. Kohen and H.-H. Limbach, (CRC Press, Boca Raton 2006), 305-359.

[32] “IR Spectroscopy of Hydrogen-Bonded CHCl3-SO2 in the Gas Phase”, S. Chung and M. Hippler, J. Chem. Phys. 124 (2006), 214316 (1-7).

[33] "Quantum Chemical Study and Infrared Spectroscopy of Hydrogen-Bonded CHCl3 - NH3 in the Gas Phase", M. Hippler, J. Chem. Phys. 127 (2007), 84306 (1-10).

[34] "Reversible gas uptake by a non-porous crystalline solid involving multiple changes in covalent bonding", G. Mínguez Espallargas, M. Hippler, A.J. Florence, P. Fernandes, J. van de Streek, M. Brunelli, W.I.F. David, K. Shankland and L. Brammer, J. Am. Chem. Soc. 129 (2007), 15606-15614.

[35] "High-Resolution Continuous-Wave-Diode Laser Cavity Ring-Down Spectroscopy of the Hydrogen Fluoride Dimer in a Pulsed Slit Jet Expansion: Two Components of the N = 2 Triad near 1.3 mum", M. Hippler, L. Oeltjen, and M. Quack, J. Phys. Chem. A 111 (2007), 12659-12668.

[36] "New Exploratory Experiments for Raman Laser Spectroscopy", M. Hippler and C. Mohr, Central Laser Facility, Rutherford Appleton Laboratory, Annual Report (2007), 120-123.

[37] "Inexpensive Raman Spectrometer for Undergraduate and Graduate Experiments and Research", C. Mohr, C.L. Spencer, and M. Hippler, J. Chem. Educ. 87 (2010), 326-330.

[38] "Cavity-enhanced resonant photoacoustic spectroscopy with optical feedback cw diode lasers: A novel technique for ultra-trace gas analysis and high-resolution spectroscopy", M. Hippler, C. Mohr, K. Keen, and E. McNaghten, J. Chem. Phys., 133 (2010), 044308 (1-8).

[39] "Quantum-chemical study and FTIR jet spectroscopy of CHCl3 - NH3 association in the gas phase", M. Hippler, S. Hesse, and M.A. Suhm, Phys. Chem. Chem. Phys. 12 (2010), 13555–13565.

[40] "High-resolution stimulated Raman spectroscopy with photoacoustic detection (PARS) of formic acid dimer", C.L. Spencer, C. Mohr and M. Hippler, preliminary report in Central Laser Facility, Annual Report 2009-2010 (RAL Report No. RAL-TR-2010-025, ISBN 978-0-9556616-6-2) (2010) 27; comprehensive publication in preparation.

[41] "Mass and Isotope-selective Infrared Spectroscopy", M. Hippler, E. Miloglyadov, M. Quack, and G. Seyfang, in: Handbook of High-Resolution Spectroscopies, Ed. by M. Quack and F. Merkt, (John Wiley, Chichester 2011), 1069-1118.

[42] "Stimulated Raman Photoacoustic Spectroscopy in the Trace Detection of H2 Gas", C.L. Spencer, V. Watson and M. Hippler, Analyst 137 (2012), 1384–1388.

[43] "Cavity-enhanced Raman spectroscopy with optical feedback cw diode lasers for gas phase analysis and spectroscopy", R. Salter, J. Chu and M. Hippler, Analyst 137 (2012) 4669-4676.

[44] "Coordination Polymer Flexibility Leads to Polymorphism and Enables a Crystalline Solid-Vapour Reaction: A Multi-technique Mechanistic Study", I.J. Vitórica-Yrezábal, S. Libri, J.R. Loader, G. Mínguez Espallargas, M. Hippler, A.J, Fletcher, S.P. Thompson, J.E. Warren, D. Musumeci, M.D. Ward and L. Brammer, Chem. Eur. J. 21 (2015) 8799-8811. Impact 5.32.

[45] "Cavity-Enhanced Raman Spectroscopy of Natural Gas with Optical Feedback cw-Diode Lasers", M. Hippler, Anal. Chem. 87, (2015), 7803-7809. Impact 6.986.

[46] "Antimicrobial activity of the manganese photo-activated CO-releasing molecule [Mn(CO)3(tpa-κ3N)]+ against a multidrug-resistant Eschericha coli", M. Tinajero-Trejo, N. Rana, T.W. Smith, C. Nagel, M. Hippler, U. Schatzschneider, and R.K. Poole, Antioxidants & Redox Signaling, 24, (2016), 765-780. DOI: 10.1089/ars.2015.6484. Impact 6.34.

[47] "Dynamic-NMR and Quantum-chemical Study of the Stereochemistry and Stability of the Chiral MoO2(acac)2 Complex in Solution", M. Conte and M. Hippler, J. Phys. Chem. A (2016), 120 (34), 6677–6687. DOI: 10.1021/acs.jpca.6b03563. Impact 2.85.

[48] "Cavity-Enhanced Raman Spectroscopy in the Biosciences: In Situ, Multicomponent and Isotope Selective Gas Measurements To Study Hydrogen Production and Consumption by Escherichia coli", T.W. Smith and M. Hippler, Anal. Chem. 89, (2017) 2147−2154. DOI: 10.1021/acs.analchem.6b04924. Impact 6.986.

[49] "Mechanism of Hydrogen-Bonded Complex Formation between Ibuprofen and Nanocrystalline Hydroxyapatite", Y. Ryabenkova, N. Jadav, M. Conte, M. Hippler, N. Reeves-McLaren, P.D. Coates, P. Twigg, A. Paradkar, Langmuir, 33 (2017) 2965−2976. DOI: 10.1021/acs.langmuir.6b04510. Impact 3.83.

[50] "A Thiol-Reactive Ru(II) Ion, not CO Release, Underlies the Potent Antimicrobial and Cytotoxic Properties of CO-Releasing Molecule-3", H.M. Southam, T.W. Smith, R.L. Lyon, C. Liao, C.R. Trevitt, L.A. Middlemiss, F.L. Cox, J.A. Chapman, S.F. El-Khamisy, M. Hippler, M.P. Williamson, P.J.F. Henderson, and R.K. Poole, Redox Biology, 18 (2018) 114–123. DOI: 10.1016/j.redox.2018.06.008. Impact Factor 7.13.

[51] Conference Paper "Helmholtz resonator diode laser photoacoustic spectroscopy for trace gas analysis in the environment and the biosciences", S. Alahmari and M. Hippler, in Advanced Photonics 2018 (BGPP, IPR, NP, NOMA, Sensors, Networks, SPPCom, SOF), OSA Technical Digest (online) (Optical Society of America, 2018), paper SeM2J.4. DOI: 10.1364/SENSORS.2018.SeM2J.4

[52] "Diode Laser Photoacoustic Spectroscopy of CO2, H2S and O2 in a Differential Helmholtz Resonator for Trace Gas Analysis in the Biosciences and Petrochemistry", S. Alahmari, X-W. Kang, and M. Hippler, Anal. Bioanal. Chem. (2019) 411:3777–3787. DOI: 10.1007/s00216-019-01877-0. Selected as Paper in Forefront. Impact 4.142.

[53] "Cavity-Enhanced Raman and Helmholtz Resonator Photoacoustic Spectroscopy to Monitor the Mixed Sugar Metabolism of E. coli", G.D. Metcalfe, S. Alahmari, T.W. Smith, and M. Hippler, Anal. Chem. 91 (2019) 13096-13104. Impact 6.986. https://pubs.acs.org/doi/abs/10.1021/acs.analchem.9b03284

[54] "Using activities to correct the Henderson-Hasselbalch equation", M. Hippler and G.D. Metcalfe, Bunsenmagazin, Vol. 22, Issue 5, 2020, 102-105. https://doi.org/10.26125/y7p7-an56

[55] "On-line Analysis and in situ pH Monitoring of Mixed Acid Fermentation by Escherichia coli using Combined FTIR and Raman Techniques", G.D. Metcalfe, T.W. Smith, and M. Hippler, Anal. Bioanal. Chem., 412(26) (2020) 7307-7319. Impact 4.142. https://doi.org/10.1007/s00216-020-02865-5

[56] "Tuning the Properties of Hydrogen-bonded Block Copolymer Worm Gels Prepared via Polymerization-Induced Self-Assembly", E. Raphael, M. J. Berry, M. Hippler and S. P. Armes, Chemical Science, 2021, 12, 12082-12091. Impact 9.825. https://doi.org/10.1039/D1SC03156B

[57] "Advanced Spectroscopic Analysis and 15N-Isotopic Labelling Study of Nitrate and Nitrite Reduction to Ammonia and Nitrous Oxide by E. coli ", G.D. Metcalfe, T.W. Smith and M. Hippler, Analyst, 2021, 146, 7021-7033. Impact 4.616. https://doi.org/10.1039/D1AN01261D.

[58] "Hydrogen production in the presence of oxygen by Escherichia coli K-12", G.D. Metcalfe, F. Sargent and M. Hippler, Microbiology 168 (2022) 001167. https://doi.org/10.1099/mic.0.001167.

[59] "Mode-Selective Vibrational-Tunneling Dynamics in the N=2 Triad of the Hydrogen-Bonded (HF)2 Cluster", M. Hippler, L. Oeltjen and M. Quack, Isr. J. Chem. 2023, 63, e202300092 (1-20). https://doi.org/10.1002/ijch.202300092.

[60] "The first HyDRA challenge for computational vibrational spectroscopy", M. Hippler and coworkers, Phys. Chem. Chem. Phys., (2023), 25, 22089-22102. https://doi.org/10.1039/D3CP01216F. Supplementary Information: https://www.rsc.org/suppdata/d3/cp/d3cp01216f/d3cp01216f6.pdf

[61] "High-resolution FTIR  spectroscopy and analysis of the Ka = 0 ← 1 subbands of the fundamentals ν3 and ν6 of the dimer (HF)2", H. Hollenstein, M. Hippler, G. Seyfang, M. Quack, Mol. Phys., (2024), 122:15-16, e2341106. https://doi.org/10.1080/00268976.2024.2341106.