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Evaluation of individual and crystal population dissolution rates by time-resolved X-ray microtomography
Hládek, F., Zůza, D., Navrátil, O., Tomas, J., Zadražil, A., Novák, V., & Štěpánek, F. (2024). Evaluation of individual and crystal population dissolution rates by time-resolved X-ray microtomography. Crystal Growth and Design. https://doi.org/10.1021/acs.cgd.4c00113
7.10 MAG. A novel host monoacylglyceride for <em>in meso</em> (lipid cubic phase) crystallization of membrane proteins
Krawinski, P., Smithers, L., van Dalsen, L., Boland, C., Ostrovitsa, N., Pérez, J., & Caffrey, M. (2024). 7.10 MAG. A novel host monoacylglyceride for in meso (lipid cubic phase) crystallization of membrane proteins. Crystal Growth and Design, 24(7), 2985-3001. https://doi.org/10.1021/acs.cgd.4c00087
Pb removal efficiency by calcium carbonates: biogenic versus abiogenic materials
Roza-Llera, A., Di Lorenzo, F., Churakov, S. V., Jiménez, A., & Fernández-Díaz, L. (2024). Pb removal efficiency by calcium carbonates: biogenic versus abiogenic materials. Crystal Growth and Design, 24(1), 79-92. https://doi.org/10.1021/acs.cgd.3c00517
Experimental and computational study on the effects of high pressure on the crystal structure of boron nitrilotriacetate
Montisci, F., Ernst, M., & Macchi, P. (2023). Experimental and computational study on the effects of high pressure on the crystal structure of boron nitrilotriacetate. Crystal Growth and Design, 23(4), 2745-2754. https://doi.org/10.1021/acs.cgd.2c01532
Thermosalience revealed on the atomic scale: rapid synchrotron techniques uncover molecular motion preceding crystal jumping
Angeloski, A., Price, J. R., Ennis, C., Smith, K., McDonagh, A. M., Dowd, A., … Bhadbhade, M. (2022). Thermosalience revealed on the atomic scale: rapid synchrotron techniques uncover molecular motion preceding crystal jumping. Crystal Growth and Design, 22(3), 1951-1959. https://doi.org/10.1021/acs.cgd.1c01495
Growth and oxygen stoichiometry control of high-quality La<sub>2</sub>CoO<sub>4+<em>δ</em></sub> single crystals (<em>δ</em> = 0.25)
De Barros, R., Ceretti, M., Schmidt, W., Pomjakushin, V. Y., & Paulus, W. (2022). Growth and oxygen stoichiometry control of high-quality La2CoO4+δ single crystals (δ = 0.25). Crystal Growth and Design, 22(9), 5542-5551. https://doi.org/10.1021/acs.cgd.2c00631
Discovering crystal forms of the novel molecular semiconductor OEG-BTBT
Pandey, P., Demitri, N., Gigli, L., James, A. M., Devaux, F., Geerts, Y. H., … Maini, L. (2022). Discovering crystal forms of the novel molecular semiconductor OEG-BTBT. Crystal Growth and Design, 22(3), 1680-1690. https://doi.org/10.1021/acs.cgd.1c01203
RENiO<sub>3</sub> single crystals (RE = Nd, Sm, Gd, Dy, Y, Ho, Er, Lu) grown from molten salts under 2000 bar of oxygen gas pressure
Klein, Y. M., Kozłowski, M., Linden, A., Lacorre, P., Medarde, M., & Gawryluk, D. J. (2021). RENiO3 single crystals (RE = Nd, Sm, Gd, Dy, Y, Ho, Er, Lu) grown from molten salts under 2000 bar of oxygen gas pressure. Crystal Growth and Design, 21(7), 4230-4241. https://doi.org/10.1021/acs.cgd.1c00474
9.8 MAG: a new host lipid for <em>in meso</em> (lipid cubic phase) crystallization of integral membrane proteins
van Dalsen, L., Smithers, L., Boland, C., Weichert, D., & Caffrey, M. (2021). 9.8 MAG: a new host lipid for in meso (lipid cubic phase) crystallization of integral membrane proteins. Crystal Growth and Design, 21(1), 490-500. https://doi.org/10.1021/acs.cgd.0c01301
Structure-mechanical relationships in polymorphs of an organic semiconductor (C4-NT3N)
Cappuccino, C., Catalano, L., Marin, F., Dushaq, G., Raj, G., Rasras, M., … Maini, L. (2020). Structure-mechanical relationships in polymorphs of an organic semiconductor (C4-NT3N). Crystal Growth and Design, 20(2), 884-891. https://doi.org/10.1021/acs.cgd.9b01281
The role of interfaces in controlling Pb&lt;sup&gt;2+&lt;/sup&gt; removal by calcium carbonate minerals
Di Lorenzo, F., Cametti, G., Vanhecke, D., & Churakov, S. V. (2020). The role of interfaces in controlling Pb2+ removal by calcium carbonate minerals. Crystal Growth and Design, 20(9), 6157-6169. https://doi.org/10.1021/acs.cgd.0c00906
Protein crystallization in the presence of a metastable liquid-liquid phase separation
Maier, R., Zocher, G., Sauter, A., Da Vela, S., Matsarskaia, O., Schweins, R., … Schreiber, F. (2020). Protein crystallization in the presence of a metastable liquid-liquid phase separation. Crystal Growth and Design, 20(12), 7951-7962. https://doi.org/10.1021/acs.cgd.0c01219
Structural variety of alkali hydrogen maleates at high pressure
Porȩba, T., Macchi, P., & Casati, N. (2020). Structural variety of alkali hydrogen maleates at high pressure. Crystal Growth and Design, 20(7), 4375-4386. https://doi.org/10.1021/acs.cgd.0c00133
One molecule, four colors: discovering the polymorphs of a thieno(bis)imide oligomer
Cappuccino, C., Canola, S., Montanari, G., Lopez, S. G., Toffanin, S., Melucci, M., … Maini, L. (2019). One molecule, four colors: discovering the polymorphs of a thieno(bis)imide oligomer. Crystal Growth and Design, 19(5), 2594-2603. https://doi.org/10.1021/acs.cgd.8b01712
Computed X-ray tomography study of carbonate precipitation in large Portland cement pores
Chavez Panduro, E. A., Torsæter, M., Gawel, K., Bjørge, R., Gibaud, A., Bonnin, A., … Breiby, D. W. (2019). Computed X-ray tomography study of carbonate precipitation in large Portland cement pores. Crystal Growth and Design, 19(10), 5850-5857. https://doi.org/10.1021/acs.cgd.9b00864
Where does the zeolite ZSM-5 nucleation and growth start? The effect of aluminum
Li, T., Krumeich, F., & van Bokhoven, J. A. (2019). Where does the zeolite ZSM-5 nucleation and growth start? The effect of aluminum. Crystal Growth and Design, 19(5), 2548-2551. https://doi.org/10.1021/acs.cgd.9b00304
Tuning the incorporation of magnesium into calcite during its crystallization from additive-free aqueous solution
Xto, J. M., Du, H., Borca, C. N., Amstad, E., van Bokhoven, J. A., & Huthwelker, T. (2019). Tuning the incorporation of magnesium into calcite during its crystallization from additive-free aqueous solution. Crystal Growth and Design, 19(8), 4385-4394. https://doi.org/10.1021/acs.cgd.9b00179
Tetragonal mixed system Cs&lt;sub&gt;2&lt;/sub&gt;CuCl&lt;sub&gt;4–&lt;em&gt;x&lt;/em&gt;&lt;/sub&gt;Br&lt;sub&gt;&lt;em&gt;x&lt;/em&gt;&lt;/sub&gt; complemented by the tetragonal phase realization of Cs&lt;sub&gt;2&lt;/sub&gt;CuCl&lt;sub&gt;4&lt;/sub&gt;
van Well, N., Eisele, C., Ramakrishnan, S., Shang, T., Medarde, M., Cervellino, A., … van Smaalen, S. (2019). Tetragonal mixed system Cs2CuCl4–xBrx complemented by the tetragonal phase realization of Cs2CuCl4. Crystal Growth and Design, 19(11), 6627-6635. https://doi.org/10.1021/acs.cgd.9b01035
NO<sub>2</sub>···NO<sub>2</sub> contacts under compression: testing the forces in soft donor-acceptor interactions
Montisci, F., Lanza, A., Casati, N., & Macchi, P. (2018). NO2···NO2 contacts under compression: testing the forces in soft donor-acceptor interactions. Crystal Growth and Design, 18(12), 7579-7589. https://doi.org/10.1021/acs.cgd.8b01392
Disclosing the rich crystal chemistry of Lesinurad by &lt;em&gt;ab initio&lt;/em&gt; laboratory X-ray powder diffraction methods
Terruzzi, S., Bellomi, S., Marras, G., Barreca, G., Ventimiglia, G., Cervellino, A., & Masciocchi, N. (2018). Disclosing the rich crystal chemistry of Lesinurad by ab initio laboratory X-ray powder diffraction methods. Crystal Growth and Design, 18(11), 6863-6872. https://doi.org/10.1021/acs.cgd.8b01083