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Kinetics of iron (hydr)oxide precipitation in cementitious materials
Furcas, F. E., Mundra, S., Lothenbach, B., Isgor, O. B., & Angst, U. M. (2023). Kinetics of iron (hydr)oxide precipitation in cementitious materials. In Vol. 3. Further reduction of CO2-emission and circularity in the cement and concrete industry (pp. 287-290). ICCC Permanent Secretariat.
Mechanisms and kinetics of C-S-H nucleation approaching the spinodal line: insights into the role of organics additives
Labbez, C., Bouzouaid, L., Van Driessche, A. E. S., Ling, W. L., Martinez, J. C., Lothenbach, B., & Fernandez-Martinez, A. (2023). Mechanisms and kinetics of C-S-H nucleation approaching the spinodal line: insights into the role of organics additives. Cement and Concrete Research, 173, 107299 (12 pp.). https://doi.org/10.1016/j.cemconres.2023.107299
Pulsed-UV illumination on graphene oxide: a new strategy in photocatalytic synthesis of electrocatalysts to control the structural and electrochemical properties
Haghmoradi, N., Sarı, Z. T., Öztürk, E. U., Peri, S., Abdolhosseinzadeh, S., Yarar Kaplan, B., & Alkan Gürsel, S. (2022). Pulsed-UV illumination on graphene oxide: a new strategy in photocatalytic synthesis of electrocatalysts to control the structural and electrochemical properties. International Journal of Energy Research, 46(4), 5200-5214. https://doi.org/10.1002/er.7512
Shaping perovskites: in situ crystallization mechanism of rapid thermally annealed, prepatterned perovskite films
Günzler, A., Bermúdez-Ureña, E., Muscarella, L. A., Ochoa, M., Ochoa-Martínez, E., Ehrler, B., … Steiner, U. (2021). Shaping perovskites: in situ crystallization mechanism of rapid thermally annealed, prepatterned perovskite films. ACS Applied Materials and Interfaces, 13(5), 6854-6863. https://doi.org/10.1021/acsami.0c20958
Structure matters – direct in-situ observation of cluster nucleation at atomic scale in a liquid phase
Henninen, T. R., Keller, D., & Erni, R. (2021). Structure matters – direct in-situ observation of cluster nucleation at atomic scale in a liquid phase. ChemNanoMat, 7(2), 110-116. https://doi.org/10.1002/cnma.202000503
The structure of sub-nm platinum clusters at elevated temperatures
Henninen, T. R., Bon, M., Wang, F., Passerone, D., & Erni, R. (2020). The structure of sub-nm platinum clusters at elevated temperatures. Angewandte Chemie International Edition, 59(12), 839-845. https://doi.org/10.1002/anie.201911068
Template-assisted<em> in situ s</em>ynthesis of Ag@Au bimetallic nanostructures employing liquid-phase transmission electron microscopy
Ahmad, N., Bon, M., Passerone, D., & Erni, R. (2019). Template-assisted in situ synthesis of Ag@Au bimetallic nanostructures employing liquid-phase transmission electron microscopy. ACS Nano, 13, 13333-13342. https://doi.org/10.1021/acsnano.9b06614
Nucleation controlled reaction of Cu<SUB>3</SUB>Si in the field of sharp concentration gradient
Ibrahim, M., Balogh-Michels, Z., Stender, P., Baither, D., & Schmitz, G. (2016). Nucleation controlled reaction of Cu3Si in the field of sharp concentration gradient. Acta Materialia, 112, 315-325. https://doi.org/10.1016/j.actamat.2016.04.041
Silicon etch with chromium ions generated by a filtered or non-filtered cathodic arc discharge
Scopece, D., Döbeli, M., Passerone, D., Maeder, X., Neels, A., Widrig, B., … Ramm, J. (2016). Silicon etch with chromium ions generated by a filtered or non-filtered cathodic arc discharge. Science and Technology of Advanced Materials, 17(1), 20-28. https://doi.org/10.1080/14686996.2016.1140308
J-aggregation of cyanine dyes by self-assembly
Steiger, R., Pugin, R., & Heier, J. (2009). J-aggregation of cyanine dyes by self-assembly. Colloids and Surfaces B: Biointerfaces, 74(2), 484-491. https://doi.org/10.1016/j.colsurfb.2009.08.020
TEM analysis of volatile nanoparticles from particle trap equipped diesel and direct-injection spark-ignition vehicles
Mathis, U., Kaegi, R., Mohr, M., & Zenobi, R. (2004). TEM analysis of volatile nanoparticles from particle trap equipped diesel and direct-injection spark-ignition vehicles. Atmospheric Environment, 38(26), 4347-4355. https://doi.org/10.1016/j.atmosenv.2004.04.016
Influence of ambient air on nucleation in fretting fatigue
Woodtli, J., von Trzebiatowski, O., & Roth, M. (2000). Influence of ambient air on nucleation in fretting fatigue. In D. W. Hoeppner, V. Chandrasekaran, & C. B. Elliott (Eds.), ASTM special technical publication: Vol. 1367. Fretting fatigue. Current technology and practices. https://doi.org/10.1520/STP14734S
MBE growth of <i>para</i>-hexaphenyl on GaAs(001)-2 x 4
Müller, B., Kuhlmann, T., Lischka, K., Schwer, H., Resel, R., & Leising, G. (1998). MBE growth of para-hexaphenyl on GaAs(001)-2 x 4. Surface Science, 418(1), 256-266. https://doi.org/10.1016/S0039-6028(98)00720-1
Nucleation and growth of diamond films on Mo and Cu substrates
Ece, M., Oral, B., & Patscheider, J. (1996). Nucleation and growth of diamond films on Mo and Cu substrates. Diamond and Related Materials, 5(3-5), 211-216. https://doi.org/10.1016/0925-9635(95)00420-3
Nucleation studies of thin diamond films on model substrates
Patscheider, J., & Oral, B. (1994). Nucleation studies of thin diamond films on model substrates. Thin Solid Films, 253(1-2), 114-118. https://doi.org/10.1016/0040-6090(94)90304-2