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XFELs: cutting edge X-ray light for chemical and material sciences
Asakura, K., Gaffney, K. J., Milne, C., & Yabashi, M. (2020). XFELs: cutting edge X-ray light for chemical and material sciences. Physical Chemistry Chemical Physics, 22(5), 2612-2614. https://doi.org/10.1039/c9cp90304f
Attosecond transient absorption spooktroscopy: a ghost imaging approach to ultrafast absorption spectroscopy
Driver, T., Li, S., Champenois, E. G., Duris, J., Ratner, D., Lane, T. J., … Cryan, J. P. (2020). Attosecond transient absorption spooktroscopy: a ghost imaging approach to ultrafast absorption spectroscopy. Physical Chemistry Chemical Physics, 22(5), 2704-2712. https://doi.org/10.1039/c9cp03951a
Defining aluminium-zoning during synthesis of ZSM-5 zeolites
Li, T., Krumeich, F., Chen, M., Ma, zhiqiang, & van Bokhoven, J. (2020). Defining aluminium-zoning during synthesis of ZSM-5 zeolites. Physical Chemistry Chemical Physics, 22(2), 734-739. https://doi.org/10.1039/C9CP05423E
Photoemission from non-polar aromatic molecules in the gas and liquid phase
Longetti, L., Randulová, M., Ojeda, J., Mewes, L., Miseikis, L., Grilj, J., … Chergui, M. (2020). Photoemission from non-polar aromatic molecules in the gas and liquid phase. Physical Chemistry Chemical Physics, 22(7), 3965-3974. https://doi.org/10.1039/c9cp06799j
Unwanted effects of X-rays in surface grafted copper (<sub>II</sub>) organometallics and copper exchanged zeolites, how they manifest, and what can be done about them
Newton, M. A., Knorpp, A. J., Meyet, J., Stoian, D., Nachtegaal, M., Clark, A. H., … van Bokhoven, J. A. (2020). Unwanted effects of X-rays in surface grafted copper (II) organometallics and copper exchanged zeolites, how they manifest, and what can be done about them. Physical Chemistry Chemical Physics, 22(13), 6826-6837. https://doi.org/10.1039/D0CP00402B
Attack of hydroxyl radicals to α-methyl-styrene sulfonate polymers and cerium-mediated repair <em>via</em> radical cations
Nolte, T. M., Nauser, T., & Gubler, L. (2020). Attack of hydroxyl radicals to α-methyl-styrene sulfonate polymers and cerium-mediated repair via radical cations. Physical Chemistry Chemical Physics, 22(8), 4516-4525. https://doi.org/10.1039/C9CP05454E
A guinea pig for conformer selectivity and mechanistic insights into dissociative ionization by photoelectron photoion coincidence: fluorocyclohexane
Wu, X., Zhou, X., Hemberger, P., & Bodi, A. (2020). A guinea pig for conformer selectivity and mechanistic insights into dissociative ionization by photoelectron photoion coincidence: fluorocyclohexane. Physical Chemistry Chemical Physics, 22(4), 2351-2360. https://doi.org/10.1039/c9cp05617c
The Gigahertz and Terahertz spectrum of monodeutero-oxirane (c-C<sub>2</sub>H<sub>3</sub>DO)
Albert, S., Chen, Z., Keppler, K., Lerch, P., Quack, M., Schurig, V., & Trapp, O. (2019). The Gigahertz and Terahertz spectrum of monodeutero-oxirane (c-C2H3DO). Physical Chemistry Chemical Physics, 21(7), 3669-3675. https://doi.org/10.1039/c8cp05311a
Visualizing reaction and diffusion in xanthan gum aerosol particles exposed to ozone
Alpert, P. A., Corral Arroyo, P., Dou, J., Krieger, U. K., Steimer, S. S., Förster, J. D., … Ammann, M. (2019). Visualizing reaction and diffusion in xanthan gum aerosol particles exposed to ozone. Physical Chemistry Chemical Physics, 21(37), 20613-20627. https://doi.org/10.1039/C9CP03731D
Quantifying the hydration structure of sodium and potassium ions: taking additional steps on Jacob's Ladder
Duignan, T. T., Schenter, G. K., Fulton, J. L., Huthwelker, T., Balasubramanian, M., Galib, M., … Mundy, C. J. (2019). Quantifying the hydration structure of sodium and potassium ions: taking additional steps on Jacob's Ladder. Physical Chemistry Chemical Physics. https://doi.org/10.1039/C9CP06161D
Metamorphic <em>meta</em> isomer: carbon dioxide and ketenes are formed <em>via </em>retro-Diels–Alder reactions in the decomposition of <em>meta</em>-benzenediol
Gerlach, M., Bodi, A., & Hemberger, P. (2019). Metamorphic meta isomer: carbon dioxide and ketenes are formed via retro-Diels–Alder reactions in the decomposition of meta-benzenediol. Physical Chemistry Chemical Physics, 21(35), 19480-19487. https://doi.org/10.1039/C9CP03519B
Wetting properties of porous high temperature polymer electrolyte fuel cells materials with phosphoric acid
Halter, J., Gloor, T., Amoroso, B., Schmidt, T. J., & Büchi, F. N. (2019). Wetting properties of porous high temperature polymer electrolyte fuel cells materials with phosphoric acid. Physical Chemistry Chemical Physics, 21(24), 13126-13134. https://doi.org/10.1039/C9CP02149C
Magnetic order and enhanced exchange in the quasi-one-dimensional molecule-based antiferromagnet Cu(NO<sub>3</sub>)<sub>2</sub> (pyz)<sub>3</sub>
Huddart, B. M., Brambleby, J., Lancaster, T., Goddard, P. A., Xiao, F., Blundell, S. J., … Manson, J. L. (2019). Magnetic order and enhanced exchange in the quasi-one-dimensional molecule-based antiferromagnet Cu(NO3)2 (pyz)3. Physical Chemistry Chemical Physics, 21(3), 1014-1018. https://doi.org/10.1039/c8cp07160h
Neutron reflectometry to measure <em>in situ</em> the rate determining step of lithium ion transport through thin silicon layers and interfaces
Hueger, E., Stahn, J., Heitjans, P., & Schmidt, H. (2019). Neutron reflectometry to measure in situ the rate determining step of lithium ion transport through thin silicon layers and interfaces. Physical Chemistry Chemical Physics, 21(30), 16444-16450. https://doi.org/10.1039/c9cp01222b
Stability of metallo-porphyrin networks under oxygen reduction and evolution conditions in alkaline media
Hötger, D., Etzkorn, M., Morchutt, C., Wurster, B., Dreiser, J., Stepanow, S., … Kern, K. (2019). Stability of metallo-porphyrin networks under oxygen reduction and evolution conditions in alkaline media. Physical Chemistry Chemical Physics, 21(5), 2587-2594. https://doi.org/10.1039/c8cp07463a
The opposing effect of butanol and butyric acid on the abundance of bromide and iodide at the aqueous solution-air interface
Lee, M. T., Orlando, F., Khabiri, M., Roeselová, M., Brown, M. A., & Ammann, M. (2019). The opposing effect of butanol and butyric acid on the abundance of bromide and iodide at the aqueous solution-air interface. Physical Chemistry Chemical Physics, 21(16), 8418-8427. https://doi.org/10.1039/C8CP07448H
Product detection study of the gas-phase oxidation of methylphenyl radicals using synchrotron photoionisation mass spectrometry
Prendergast, M. B., Kirk, B. B., Savee, J. D., Osborn, D. L., Taatjes, C. A., Hemberger, P., … Trevitt, A. J. (2019). Product detection study of the gas-phase oxidation of methylphenyl radicals using synchrotron photoionisation mass spectrometry. Physical Chemistry Chemical Physics, 21(32), 17939-17949. https://doi.org/10.1039/c9cp01935a
Study of electronic structure in the L-edge spectroscopy of actinide materials: UO<sub>2</sub> as an example
Ramanantoanina, H., Kuri, G., Martin, M., & Bertsch, J. (2019). Study of electronic structure in the L-edge spectroscopy of actinide materials: UO2 as an example. Physical Chemistry Chemical Physics, 21(15), 7789-7801. https://doi.org/10.1039/c9cp01021a
How the methyl group position influences the ultrafast deactivation in aromatic radicals
Steglich, M., Knopp, G., & Hemberger, P. (2019). How the methyl group position influences the ultrafast deactivation in aromatic radicals. Physical Chemistry Chemical Physics, 21(2), 581-588. https://doi.org/10.1039/c8cp06087h
Atomically dispersed platinum on low index and stepped ceria surfaces: phase diagrams and stability analysis
Wang, X., van Bokhoven, J. A., & Palagin, D. (2019). Atomically dispersed platinum on low index and stepped ceria surfaces: phase diagrams and stability analysis. Physical Chemistry Chemical Physics. https://doi.org/10.1039/C9CP04973H
 

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