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Publications at Applied Physical Chemistry

50 latest publications

[2]
M. van Horn and N. Holmgaard List, "A four-component relativistic perspective on an E ⊗ e Jahn-Teller model," Journal of Chemical Physics, vol. 164, no. 2, 2026.
[3]
W. Veyrudit et al., "A hybrid immuno-nanoparticle lateral flow assay for field detection of Fosetyl-aluminum," Talanta : The International Journal of Pure and Applied Analytical Chemistry, vol. 296, 2026.
[7]
K. Basu, P. Karak and S. Chakrabarti, "Addressing vibronic phosphorescence and associated excited state dynamics of anti-Kasha molecules: a time-dependent correlation function approach," Physical Chemistry, Chemical Physics - PCCP, vol. 28, no. 8, pp. 5408-5417, 2026.
[8]
B. Chaplin et al., "Advancing Electrochemical Technologies for Sustainable Water Treatment and Resource Recovery," ACS ES and T Engineering, vol. 6, no. 6, pp. 1706-1707, 2026.
[9]
F. Ludvig, Å. Emmer and M. Lawoko, "Advancing lignin analytics via elucidation of linkage progressions in lignin populations," Communications Chemistry, vol. 9, no. 1, 2026.
[10]
P. V. Yushmanov and S. V. Dvinskikh, "Beyond Alignment: Redefining Design Rules for Liquid-Crystal-Functionalized Electrolytes," The Journal of Physical Chemistry C, vol. 130, no. 12, pp. 4347-4352, 2026.
[12]
E. Weißenborn et al., "Correlating molecular structure and surface forces in confined liquid films," Journal of Colloid and Interface Science, vol. 704, 2026.
[13]
P. Chakraborty, R. C. Couto and N. Holmgaard List, "Electronic and Inertial Effects of Methylation on Excited-State Hydrogen Transfer," Journal of Physical Chemistry A, vol. 130, no. 5, pp. 1090-1103, 2026.
[15]
G. Laucirica et al., "Frequency-resolved characterization of thin-layer solid-contact ion-selective electrodes: Deconvoluting electron and ion transfer with AC voltammetry," Talanta : The International Journal of Pure and Applied Analytical Chemistry, vol. 302, 2026.
[16]
X. Xuan et al., "Fully 3D-Printed Analytical Device Based on a Novel Floating Electrode Mechanism for Sweat Rate Acquisition," ACS Measurement Science Au, vol. 6, no. 3, pp. 825-836, 2026.
[17]
G. Laucirica et al., "Fundamental Insights into Nanoconfined Devices by Using Electrochemical Impedance Spectroscopy," Analytical Chemistry, vol. 98, no. 6, pp. 5054-5065, 2026.
[19]
[21]
F. Ludvig, Å. Emmer and M. Lawoko, "Linkage Progression Mapping : Precision Structure Analysis of Individual Oligomers in Birch Milled Wood Lignin," Biomacromolecules, vol. 27, no. 4, pp. 2839-2850, 2026.
[22]
D. Torricelli et al., "Monolithic Potentiometric Cell Using Fused Filament Fabrication," Analytical Chemistry, vol. 98, no. 16, pp. 11645-11651, 2026.
[23]
B. Nozière and R. Patrick, "Observing elusive tetroxides in gas- phase radical reactions supports the Russell mechanism," Science Advances, vol. 12, no. 11, pp. 1-7, 2026.
[25]
P. V. Yushmanov and S. Dvinskikh, "Orientation-Selective NMR Reveals Tensor-Resolved Ion Transport in Ordered Electrolytes," The Journal of Physical Chemistry C, vol. 130, no. 21, pp. 7342-7346, 2026.
[26]
V. Pascual-Llorens et al., "Pulse-mediated refaceting of copper. Influence on 5-hydroxymethylfurfural electrocatalysis," Journal of Materials Chemistry A, vol. 14, no. 31, pp. 20450-20463, 2026.
[27]
J. Grisillon et al., "Quantification of four classes of amphiphilic surfactants by solid phase extraction and spectrophotometric detection at nanomolar levels: environmental applications," Talanta : The International Journal of Pure and Applied Analytical Chemistry, vol. 297, pp. 128575-128575, 2026.
[28]
A. Mohan et al., "Recent progress in separation strategies for upgrading bio-oil: mechanisms, challenges and a way forward," Separation and Purification Technology, vol. 392, pp. 137146-137146, 2026.
[30]
G. Laucirica et al., "Scan-Rate-Induced Transition from Redox to Ion Current Rectification in Carbon Nanopipettes," Analytical Chemistry, vol. 98, no. 18, pp. 13197-13202, 2026.
[31]
J. J. Wang et al., "Selective Electrosynthesis of Ammonia via Sequential Electron–Proton Transfer," Journal of the American Chemical Society, vol. 148, no. 20, pp. 20570-20581, 2026.
[32]
D. Andrade-Alarcón et al., "Tailored Core-Shell Nanocarrier for Therapeutic Drug Delivery via Visible Light Activation," Angewandte Chemie International Edition, vol. 65, no. 2, 2026.
[33]
M. Lindberg et al., "The temperature dependence of amyloid /3 solubility reveals the hydrophobic effect as the main driving force for fibril formation," Proceedings of the National Academy of Sciences of the United States of America, vol. 123, no. 17, 2026.
[34]
C. M. Lousada and M. Jonsson, "Thermodynamics and mechanisms of adsorption of iodide on zirconia," Applied Surface Science, vol. 746, 2026.
[35]
A. Brnovic et al., "Triplet states enable efficient photocatalytic hydrogen evolution in star-shaped truxene-based nanoparticles," Chemical Science, vol. 17, no. 15, pp. 7525-7532, 2026.
[36]
N. Martínez-Lorca et al., "Tunable Ion-Sensing Using Coulometric-Based Protocols with Permselective Nanomembranes," Analytical Chemistry, vol. 98, no. 6, pp. 4972-4982, 2026.
[37]
H. Holzinger et al., "Water in motion : How charged semi-flexible nanofibers affect self-diffusion of water," Physical review. E, vol. 113, no. 6, 2026.
[39]
A. Mohan et al., "A Separation Strategy for Refining Crude Biogenic Oil Using Phase Separation," in EUBCE 2025, 33rd European Biomass Conference and Exhibition, Valencia, Spain, June 9-12, 2025, 2025.
[40]
T. Brinck and J. S. Murray, "A theoretical journey delving into triel bonding: anomalies, interpretations and applications," in Theoretical and Physical Chemistry of Triel Bonding : Properties, Mechanisms, and Catalysis, Slawomir Janusz Grabowski Ed., : Elsevier BV, 2025, pp. 219-237.
[41]
H. T. D. Bui and T. Brinck, "Activity Descriptors of Nonmetal Doped Xene-Based Single-Atom Catalysts for Enhanced NO Electroreduction via Hetero-Xene-Layer Integration," The Journal of Physical Chemistry C, vol. 129, no. 49, pp. 21600-21612, 2025.
[43]
B. Lei et al., "AURORA - An Automatic Robotic Platform for Materials Discovery," ACS Applied Materials and Interfaces, vol. 17, no. 18, pp. 26701-26709, 2025.
[44]
D. Olsson, "Chemistry Beyond Containment : Kinetic and Mechanistic Insights into Spent Nuclear Fuel Dissolution," Doctoral thesis Stockholm : KTH Royal Institute of Technology, TRITA-CBH-FOU, 2025:36, 2025.
[45]
S. Davoodi et al., "Confinement induced self-assembly of protein nanofibrils probed by microfocus X-ray scattering," Journal of Physical Chemistry B, vol. 129, no. 3, pp. 1070-1081, 2025.
[46]
V. Pascual-Llorens, A. Serrà-Ramos and P. Sebastián Pascual, "Controlled formation of shape structures via electrochemical surface modification of Cu(111)," Electrochimica Acta, vol. 518, 2025.
[47]
L. Marcos Celada, S. Dvinskikh and P. Olsén, "Controlled green heterogenous functionalization of cellulose via strategic reaction system design," Carbohydrate Polymers, vol. 354, 2025.
[48]
P. Villo et al., "Electrochemical Deoxygenative Silylation of Alcohols," Angewandte Chemie International Edition, vol. 64, no. 39, 2025.
[49]
P. Sebastián Pascual et al., "Electrolyte effects in proton–electron transfer reactions and implications for renewable fuels and chemicals synthesis," Nature Catalysis, vol. 8, no. 10, pp. 986-999, 2025.