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Publikationer

Institut for Kemi er et af de mest produktive institutter på Aarhus Universitet. Der udgives et væld af artikler i videnskabelige tidsskrifter, som du finder herunder.

Publikationer fra Institut for Kemi

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Fikáček, J., Warmuth, J., Arnold, F., Piamonteze, C., Mao, Z., Holý, V., Hofmann, P., Bremholm, M., Wiebe, J., Wiesendanger, R. & Honolka, J. (2021). Disorder-induced time effect in the antiferromagnetic domain state of Fe1+yTe. Journal of Magnetism and Magnetic Materials, 540, Artikel 168426. https://doi.org/10.1016/j.jmmm.2021.168426
Dey, S., Fan, C., Gothelf, K. V., Li, J., Lin, C., Liu, L., Liu, N., Nijenhuis, M. A. D., Saccà, B., Simmel, F. C., Yan, H. & Zhang, P. (2021). DNA origami. Nature Reviews Methods Primers.
Pramanick, A., Nayak, S., Egami, T., Dmowski, W., Budisuharto, A. S., Marlton, F., Jørgensen, M. R. V., Venkateshwarlu, S. & Beyer, K. A. (2021). Dynamical origins of weakly coupled relaxor behavior in Sn-doped (Ba,Ca)Ti O3-BiSc O3. Physical Review B, 103(21), Artikel 214105. https://doi.org/10.1103/PhysRevB.103.214105
Zajac, M., Skibsted, J. & Ben Haha, M. (2021). Effect of alkalis on enforced carbonation of cement paste: Mechanism of reaction. Journal of the American Ceramic Society, 104(2), 1076-1087. https://doi.org/10.1111/jace.17481
Zajac, M., Skibsted, J., Durdzinski, P. & Ben Haha, M. (2021). Effect of alkalis on products of enforced carbonation of cement paste. Construction and Building Materials, 291, Artikel 123203. https://doi.org/10.1016/j.conbuildmat.2021.123203
Liong, C. S., Smith, A. A. A., Mann, J. L., Roth, G. A., Gale, E. C., Maikawa, C. L., Ou, B. S. & Appel, E. A. (2021). Enhanced Humoral Immune Response by High Density TLR Agonist Presentation on Hyperbranched Polymers. Advanced Therapeutics, 4(4), Artikel 2000081. https://doi.org/10.1002/adtp.202000081
Du, J. J., Stanton, S. A., Fakih, S., Hawkins, B. A., Williams, P. A., Groundwater, P. W., Overgaard, J., Platts, J. A. & Hibbs, D. E. (2021). Exploring the Solubility of the Carbamazepine-Saccharin Cocrystal: A Charge Density Study. Crystal Growth and Design, 21(8), 4259-4275. https://doi.org/10.1021/acs.cgd.8b01111
Sangeetha, N. S., Pakhira, S., Ding, Q. P., Krause, L., Lee, H. C., Smetana, V., Mudring, A. V., Iversen, B. B., Furukawa, Y. & Johnston, D. C. (2021). First-order antiferromagnetic transitions of SrMn2P2 and CaMn2P2 single crystals containing corrugated-honeycomb Mn sublattices. Proceedings of the National Academy of Sciences (PNAS), 118(44), Artikel e2108724118. https://doi.org/10.1073/pnas.2108724118
Fan, W., Jensen, L. R., Ceccato, M., Quaade, T. S., Gurevich, L., Yu, D. & Smedskjaer, M. M. (2021). Flexible inorganic–organic hybrids with dual inorganic components. Materials Today Chemistry, 22, Artikel 100584. https://doi.org/10.1016/j.mtchem.2021.100584
Lerner, E., Barth, A., Hendrix, J., Ambrose, B., Birkedal, V., Blanchard, S. C., Börner, R., Chung, H. S., Cordes, T., Craggs, T. D., Deniz, A. A., Diao, J., Fei, J., Gonzalez, R. L., Gopich, I. V., Ha, T., Hanke, C. A., Haran, G., Hatzakis, N. S. ... Weiss, S. (2021). FRET-based dynamic structural biology: Challenges, perspectives and an appeal for open-science practices. eLife, 10, Artikel 60416. https://doi.org/10.7554/eLife.60416
Mroginski, M. A., Adam, S., Amoyal, G. S., Barnoy, A., Bondar, A. N., Borin, V. A., Church, J. R., Domratcheva, T., Ensing, B., Fanelli, F., Ferré, N., Filiba, O., Pedraza-González, L., González, R., González-Espinoza, C. E., Kar, R. K., Kemmler, L., Kim, S. S., Kongsted, J. ... Schapiro, I. (2021). Frontiers in Multiscale Modeling of Photoreceptor Proteins. Photochemistry and Photobiology, 97(2), 243-269. https://doi.org/10.1111/php.13372
Kjølbye, L. R., De Maria, L., Wassenaar, T. A., Abdizadeh, H., Marrink, S. J., Ferkinghoff-Borg, J. & Schiøtt, B. (2021). General Protocol for Constructing Molecular Models of Nanodiscs. Journal of Chemical Information and Modeling, 61(6), 2869-2883. https://doi.org/10.1021/acs.jcim.1c00157
Pries, J., Sehringer, J. C., Wei, S., Lucas, P. & Wuttig, M. (2021). Glass transition of the phase change material AIST and its impact on crystallization. Materials Science in Semiconductor Processing, 134, Artikel 105990. https://doi.org/10.1016/j.mssp.2021.105990
Stingaciu, M., Mishra, D., de Julián Fernández, C., Cabassi, R., Eikeland, A. Z., Christensen, M. & Deledda, S. (2021). High magnetic coercive field in Ca-Al-Cr substituted strontium hexaferrite. Journal of Alloys and Compounds, 883, Artikel 160768. https://doi.org/10.1016/j.jallcom.2021.160768
Menescardi, F., Ehrenreich-Petersen, E. & Ceresoli, D. (2021). High-Pressure Computational Search of Trivalent Lanthanide Dinitrides. Journal of Physical Chemistry C, 125(1), 161-167. https://doi.org/10.1021/acs.jpcc.0c08904
Tomsen-Melero, J., Passemard, S., García-Aranda, N., Días-Riascos, Z. V., González-Rioja, R., Pedersen, J. N., Lyngsø, J., Merlo-Mas, J., Cristóbal-Lecina, E., Corchero, J. L., Pulido, D., Cámara-Sánchez, P., Portnaya, I., Ionita, I., Schwarz, Jr., S., Veciana, J., Sala, S., Royo, M., Córdoba, A. ... Ventosa, N. (2021). Impact of Chemical Composition on the Nanostructure and Biological Activity of α-Galactosidase-Loaded Nanovesicles for Fabry Disease Treatment. ACS applied materials & interfaces, 13(7), 7825-7838. https://doi.org/10.1021/acsami.0c16871
Ruckhofer, A., Halbritter, S., Lund, H. E., Holt, A. J. U., Bianchi, M., Bremholm, M., Benedek, G., Hofmann, P., Ernst, W. E. & Tamtögl, A. (2021). Inelastic helium atom scattering from Sb2Te3(111): phonon dispersion, focusing effects and surfing. Physical Chemistry Chemical Physics, 23(13), 7806-7813. https://doi.org/10.1039/d0cp04738d
Nadein, K., Kovalev, A., Thøgersen, J., Weidner, T. & Gorb, S. (2021). Insects use lubricants to minimize friction and wear in leg joints. Proceedings of the Royal Society B: Biological Sciences, 288(1954), Artikel 20211065. https://doi.org/10.1098/rspb.2021.1065
Milanetti, E., Miotto, M., Di Rienzo, L., Nagaraj, M., Monti, M., Golbek, T. W., Gosti, G., Roeters, S. J., Weidner, T., Otzen, D. E. & Ruocco, G. (2021). In-Silico Evidence for a Two Receptor Based Strategy of SARS-CoV-2. Frontiers in Molecular Biosciences, 8, Artikel 690655. https://doi.org/10.3389/fmolb.2021.690655