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Publications at Applied Physical Chemistry

50 latest publications

[1]
J. Romson and Å. Emmer, "Chemical mass shifts of cluster ions and adduct ions in quadrupolar ion traps revisited and extended," Rapid Communications in Mass Spectrometry, vol. 37, no. 3, 2023.
[2]
S. Svanström et al., "Direct Measurements of Interfacial Photovoltage and Band Alignment in Perovskite Solar Cells Using Hard X-ray Photoelectron Spectroscopy," ACS Applied Materials and Interfaces, vol. 15, no. 9, pp. 12485-12494, 2023.
[3]
[5]
A. Starkholm, L. Kloo and P. H. Svensson, "Gold Polyiodide Hybrid Perovskite Solar Cells," ACS Materials Letters, vol. 5, no. 2, pp. 406-412, 2023.
[9]
[12]
Y. Yang, "Platinum-free Electrocatalysts : Design, Synthesis, and Energy Applications," Doctoral thesis Stockholm : KTH Royal Institute of Technology, TRITA-CBH-FOU, 2023:3, 2023.
[15]
D. van der Burg et al., "Recent capillary electrophoresis applications for upstream and downstream biopharmaceutical process monitoring," TrAC. Trends in analytical chemistry, vol. 160, 2023.
[17]
S. Ohman et al., "Role of Oxygen in Vacancy-Induced Phase Formation and Crystallization of Al2TiO5-Based Chemical Vapor-Deposited Coatings," The Journal of Physical Chemistry C, vol. 127, no. 13, pp. 6456-6465, 2023.
[22]
R. L. Gil, C. G. Amorim and M. Cuartero, "Addressing the Detection of Ammonium Ion in Environmental Water Samples via Tandem Potentiometry-Ion Chromatography," ACS Measurement Science Au, vol. 2, no. 3, pp. 199-207, 2022.
[23]
L. He, Y. Guo and L. Kloo, "An Ab Initio Molecular Dynamics Study of the Mechanism and Rate of Dye Regeneration by Iodide Ions in Dye-Sensitized Solar Cells," ACS Sustainable Chemistry and Engineering, vol. 10, no. 6, pp. 2224-2233, 2022.
[24]
T. J. Jacobsson et al., "An open-access database and analysis tool for perovskite solar cells based on the FAIR data principles," Nature Energy, vol. 7, no. 1, pp. 107-115, 2022.
[28]
M. Wohlert et al., "Cellulose and the role of hydrogen bonds : not in charge of everything," Cellulose, vol. 29, no. 1, pp. 1-23, 2022.
[29]
G. Li and M. S. G. Ahlquist, "Computational comparison of Ru(bda)(py)2 and Fe(bda)(py)2 as water oxidation catalysts," Dalton Transactions, vol. 51, no. 22, pp. 8618-8624, 2022.
[30]
B. Guo et al., "Conformational Selection in Biocatalytic Plastic Degradation by PETase," ACS Catalysis, vol. 12, no. 6, pp. 3397-3409, 2022.
[32]
[34]
S. Wrede et al., "Electron-hopping across dye-sensitized mesoporous NiO surfaces," Physical Chemistry, Chemical Physics - PCCP, vol. 24, no. 48, pp. 29850-29861, 2022.
[35]
J. Nordstrand and L. Kloo, "Electrostatic interactions and physisorption: mechanisms of passive cesium adsorption on Prussian blue," Physical Chemistry, Chemical Physics - PCCP, vol. 24, no. 41, pp. 25452-25461, 2022.
[36]
Y. Ma et al., "Eutectic freeze crystallization for recovery of NiSO4 and CoSO4 hydrates from sulfate solutions," Separation and Purification Technology, vol. 286, 2022.
[39]
N. L. Hansson et al., "Geometrical aspects of alpha dose rates from UO2 based fuels," Radiation Physics and Chemistry, vol. 199, pp. 110336, 2022.
[40]
A. Kamada et al., "Hierarchical propagation of structural features in protein nanomaterials," Nanoscale, vol. 14, no. 6, pp. 2502-2510, 2022.
[41]
Z. Li et al., "Inorganic/organic hybrid nanoparticles synthesized in a two-step radiation-driven process," Radiation Physics and Chemistry, vol. 197, pp. 110166, 2022.
[42]
D. Majhi, J. Dai and S. Dvinskikh, "Insights into cation-anion hydrogen bonding in mesogenic ionic liquids : an NMR study," Physical Chemistry, Chemical Physics - PCCP, vol. 24, no. 38, pp. 23532-23539, 2022.
[46]
D. Olsson, J. Li and M. Jonsson, "Kinetic Effects of H2O2 Speciation on the Overall Peroxide Consumption at UO2-Water Interfaces," ACS Omega, vol. 7, no. 18, pp. 15929-15935, 2022.
[47]
J. Nordstrand et al., "Ladder Mechanisms of Ion Transport in Prussian Blue Analogues," ACS Applied Materials and Interfaces, vol. 14, no. 1, pp. 1102-1113, 2022.
[49]
[50]
H. Wu et al., "Methylammonium Bromide Assisted Crystallization for Enhanced Lead-Free Double Perovskite Photovoltaic Performance," Advanced Functional Materials, vol. 32, no. 14, pp. 2109402, 2022.
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