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Melts of single-chain nanoparticles: a neutron scattering investigation
Arbe, A., Rubio, J., Malo de Molina, P., Maiz, J., Pomposo, J. A., Fouquet, P., … Colmenero, J. (2020). Melts of single-chain nanoparticles: a neutron scattering investigation. Journal of Applied Physics, 127(4), 044305 (11 pp.). https://doi.org/10.1063/1.5140705
Ionic liquid dynamics in nanoporous carbon: a pore-size- and temperature-dependent neutron spectroscopy study on supercapacitor materials
Busch, M., Hofmann, T., Frick, B., Embs, J. P., Dyatkin, B., & Huber, P. (2020). Ionic liquid dynamics in nanoporous carbon: a pore-size- and temperature-dependent neutron spectroscopy study on supercapacitor materials. Physical Review Materials, 4(5), 055401 (12 pp.). https://doi.org/10.1103/PhysRevMaterials.4.055401
Fractional antiferromagnetic skyrmion lattice induced by anisotropic couplings
Gao, S., Rosales, H. D., Gómez Albarracín, F. A., Tsurkan, V., Kaur, G., Fennell, T., … Zaharko, O. (2020). Fractional antiferromagnetic skyrmion lattice induced by anisotropic couplings. Nature, 586, 37-41. https://doi.org/10.1038/s41586-020-2716-8
Evolution of field-induced metastable phases in the Shastry-Sutherland lattice magnet <em>TmB<sub>4</sub></em>
Lançon, D., Scagnoli, V., Staub, U., Petrenko, O. A., Ciomaga Hatnean, M., Canevet, E., … Fennell, T. (2020). Evolution of field-induced metastable phases in the Shastry-Sutherland lattice magnet TmB4. Physical Review B, 102(6), 060407 (6 pp.). https://doi.org/10.1103/PhysRevB.102.060407
Exploring molecular reorientations in amorphous and recrystallized felodipine at the microscopic level
Pajzderska, A., Jenczyk, J., Embs, J. P., & Wąsicki, J. (2020). Exploring molecular reorientations in amorphous and recrystallized felodipine at the microscopic level. RSC Advances, 10(61), 37346-37357. https://doi.org/10.1039/d0ra07266d
Contrasting behaviors of FA and MA cations in <em>A</em>PbBr<sub>3</sub>
Sharma, V. K., Mukhopadhyay, R., Mohanty, A., Tyagi, M., Embs, J. P., & Sarma, D. D. (2020). Contrasting behaviors of FA and MA cations in APbBr3. Journal of Physical Chemistry Letters, 11(22), 9669-9679. https://doi.org/10.1021/acs.jpclett.0c02688
A quantum liquid of magnetic octupoles on the pyrochlore lattice
Sibille, R., Gauthier, N., Lhotel, E., Porée, V., Pomjakushin, V., Ewings, R. A., … Fennell, T. (2020). A quantum liquid of magnetic octupoles on the pyrochlore lattice. Nature Physics, 16, 546-552. https://doi.org/10.1038/s41567-020-0827-7
Transport mechanism of acetamide in deep eutectic solvents
Srinivasan, H., Sharma, V. K., Sakai, V. G., Embs, J. P., Mukhopadhyay, R., & Mitra, S. (2020). Transport mechanism of acetamide in deep eutectic solvents. Journal of Physical Chemistry B, 124(8), 1509-1520. https://doi.org/10.1021/acs.jpcb.9b11137
Mesoscale dynamics in melts of single-chain polymeric nanoparticles
Arbe, A., Rubio-Cervilla, J., Alegría, A., Moreno, A. J., Pomposo, J. A., Robles-Hernández, B., … Colmenero, J. (2019). Mesoscale dynamics in melts of single-chain polymeric nanoparticles. Macromolecules, 52(18), 6935-6942. https://doi.org/10.1021/acs.macromol.9b01264
Dynamical and structural properties of water in silica nanoconfinement: impact of pore size, ion nature, and electrolyte concentration
Baum, M., Rieutord, F., Juranyi, F., Rey, C., & Rébiscoul, D. (2019). Dynamical and structural properties of water in silica nanoconfinement: impact of pore size, ion nature, and electrolyte concentration. Langmuir, 35(33), 10780-10794. https://doi.org/10.1021/acs.langmuir.9b01434
Surface phonons of lithium ion battery active materials
Benedek, P., Yazdani, N., Chen, H., Wenzler, N., Juranyi, F., Månsson, M., … Wood, V. C. (2019). Surface phonons of lithium ion battery active materials. Sustainable Energy and Fuels, 3(2), 508-513. https://doi.org/10.1039/C8SE00389K
Ionic conduction mechanism in the Na<sub>2</sub>(B<sub>12</sub>H<sub>12</sub>)<sub>0.5</sub>(B<sub>10</sub>H<sub>10</sub>)<sub>0.5 </sub><em>closo</em>-borate
Duchêne, L., Lunghammer, S., Burankova, T., Liao, W. C., Embs, J. P., Copéret, C., … Battaglia, C. (2019). Ionic conduction mechanism in the Na2(B12H12)0.5(B10H10)0.5 closo-borate solid-state electrolyte: interplay of disorder and ion–ion interactions. Chemistry of Materials, 31(9), 3449-3460. https://doi.org/10.1021/acs.chemmater.9b00610
Multiphase competition in the quantum XY pyrochlore antiferromagnet CdYb<sub>2</sub>Se<sub>4</sub>: zero and applied magnetic field study
Guratinder, K., Rau, J. G., Tsurkan, V., Ritter, C., Embs, J., Fennell, T., … Zaharko, O. (2019). Multiphase competition in the quantum XY pyrochlore antiferromagnet CdYb2Se4: zero and applied magnetic field study. Physical Review B, 100(9), 094420 (10 pp.). https://doi.org/10.1103/PhysRevB.100.094420
Transport properties of H<sub>2</sub> confined in carbide-derived carbons with different pore shapes and sizes
Härmas, R., Palm, R., Russina, M., Kurig, H., Grzimek, V., Härk, E., … Lust, E. (2019). Transport properties of H2 confined in carbide-derived carbons with different pore shapes and sizes. Carbon, 155, 122-128. https://doi.org/10.1016/j.carbon.2019.08.041
A manganese hydride molecular sieve for practical hydrogen storage under ambient conditions
Morris, L., Hales, J. J., Trudeau, M. L., Georgiev, P., Embs, J. P., Eckert, J., … Antonelli, D. M. (2019). A manganese hydride molecular sieve for practical hydrogen storage under ambient conditions. Energy and Environmental Science, 12(5), 1580-1591. https://doi.org/10.1039/C8EE02499E
Nanocrystal superlattices as phonon-engineered solids and acoustic metamaterials
Yazdani, N., Jansen, M., Bozyigit, D., Lin, W. M. M., Volk, S., Yarema, O., … Wood, V. (2019). Nanocrystal superlattices as phonon-engineered solids and acoustic metamaterials. Nature Communications, 10(1), 4236 (6 pp.). https://doi.org/10.1038/s41467-019-12305-3
Structural and dynamical properties of water confined in highly ordered mesoporous silica in the presence of electrolytes
Baum, M., Rébiscoul, D., Juranyi, F., & Rieutord, F. (2018). Structural and dynamical properties of water confined in highly ordered mesoporous silica in the presence of electrolytes. Journal of Physical Chemistry C, 122(34), 19857-19868. https://doi.org/10.1021/acs.jpcc.8b02182
Combined tracer through-diffusion of HTO and <sup>22</sup>Na through Na-montmorillonite with different bulk dry densities
Bestel, M., Glaus, M. A., Frick, S., Gimmi, T., Juranyi, F., Van Loon, L. R., & Diamond, L. W. (2018). Combined tracer through-diffusion of HTO and 22Na through Na-montmorillonite with different bulk dry densities. Applied Geochemistry, 93, 158-166. https://doi.org/10.1016/j.apgeochem.2018.04.008
Dynamics of the coordination complexes in a solid-state Mg electrolyte
Burankova, T., Roedern, E., Maniadaki, A. E., Hagemann, H., Rentsch, D., Lodziana, Z., … Embs, J. P. (2018). Dynamics of the coordination complexes in a solid-state Mg electrolyte. Journal of Physical Chemistry Letters, 9(22), 6450-6455. https://doi.org/10.1021/acs.jpclett.8b02965
A slow atomic diffusion process in high-entropy glass-forming metallic melts
Chen, C., Wong, K., Krishnan, R. P., Embs, J. P., & Chathoth, S. M. (2018). A slow atomic diffusion process in high-entropy glass-forming metallic melts. Journal of Physics D: Applied Physics, 51(14), 145301 (6 pp.). https://doi.org/10.1088/1361-6463/aab148
 

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