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Low temperature epitaxial barium titanate thin film growth in high vacuum CVD
Reinke, M., Kuzminykh, Y., Eltes, F., Abel, S., LaGrange, T., Neels, A., … Hoffmann, P. (2017). Low temperature epitaxial barium titanate thin film growth in high vacuum CVD. Advanced Materials Interfaces, 1700116 (8 pp.). https://doi.org/10.1002/admi.201700116
Comparative study of single and multi domain CVD graphene using large-area Raman mapping and electrical transport characterization
Thodkar, K., El Abbassi, M., Lüönd, F., Overney, F., Schönenberger, C., Jeanneret, B., & Calame, M. (2016). Comparative study of single and multi domain CVD graphene using large-area Raman mapping and electrical transport characterization. Physica Status Solidi: Rapid Research Letters, 10(11), 807-811. https://doi.org/10.1002/pssr.201600211
Combinatorial HV-CVD survey of barium triisopropyl cyclopentadienyl and titanium tetraisopropoxide for the deposition of BaTiO<SUB>3</SUB>
Reinke, M., Kuzminykh, Y., & Hoffmann, P. (2015). Combinatorial HV-CVD survey of barium triisopropyl cyclopentadienyl and titanium tetraisopropoxide for the deposition of BaTiO3. Physica Status Solidi A: Applications and Materials, 212(7), 1556-1562. https://doi.org/10.1002/pssa.201532326
Selective growth of titanium dioxide by low-temperature chemical vapor deposition
Reinke, M., Kuzminykh, Y., & Hoffmann, P. (2015). Selective growth of titanium dioxide by low-temperature chemical vapor deposition. ACS Applied Materials and Interfaces, 7(18), 9736-9743. https://doi.org/10.1021/acsami.5b01561
Negatively charged nitrogen-vacancy centers in a 5 nm thin <SUP>12</SUP>C diamond film
Ohashi, K., Rosskopf, T., Watanabe, H., Loretz, M., Tao, Y., Hauert, R., … Itoh, K. M. (2013). Negatively charged nitrogen-vacancy centers in a 5 nm thin 12C diamond film. Nano Letters, 13(10), 4733-4738. https://doi.org/10.1021/nl402286v
Synthesis, characterization, electronic and gas-sensing properties towards H<SUB>2</SUB> and CO of transparent, large-area, low-layer graphene
Kayhan, E., Prasad, R. M., Gurlo, A., Yilmazoglu, O., Engstler, J., Ionescu, E., … Schneider, J. J. (2012). Synthesis, characterization, electronic and gas-sensing properties towards H2 and CO of transparent, large-area, low-layer graphene. Chemistry: A European Journal, 18(47), 14996-15003. https://doi.org/10.1002/chem.201201880
Chemical vapor deposition kinetics and localized growth regimes in combinatorial experiments
Dabirian, A., Kuzminykh, Y., Wagner, E., Benvenuti, G., Rushworth, S. A., & Hoffmann, P. (2011). Chemical vapor deposition kinetics and localized growth regimes in combinatorial experiments. ChemPhysChem, 12(18), 3524-3528. https://doi.org/10.1002/cphc.201100637
A brief summary of carbon nanotubes science and technology: a health and safety perspective
Wick, P., Clift, M. J. D., Rösslein, M., & Rothen-Rutishauser, B. (2011). A brief summary of carbon nanotubes science and technology: a health and safety perspective. ChemSusChem, 4(7), 905-911. https://doi.org/10.1002/cssc.201100161
Demonstration of nano-adhesion as joining technology - measurement of nano-adhesion of carbon nanotubes
Wenger, M. (2009). Demonstration of nano-adhesion as joining technology - measurement of nano-adhesion of carbon nanotubes [Master thesis].
Correlation of field emission properties with morphology and surface composition of CVD nanocarbon films
Obraztsov, A. N., Gröning, O., Zolotukhin, A. A., Zakhidov, A. A., & Volkov, A. P. (2006). Correlation of field emission properties with morphology and surface composition of CVD nanocarbon films. Diamond and Related Materials, 15(4-8), 838-841. https://doi.org/10.1016/j.diamond.2005.10.035
Quantitative analysis of the <i>in situ</i> Fourier transform infrared absorption and emission spectrum of gas-phase SiO (Δ<i>v</i> = 1 and 2) produced in Si-N-O fiber growth
Martin, P. A., Daum, R., Beil, A., Vogt, U., Vital, A., Graehlert, W., … Hopfe, V. (2004). Quantitative analysis of the in situ Fourier transform infrared absorption and emission spectrum of gas-phase SiO (Δv = 1 and 2) produced in Si-N-O fiber growth. Applied Spectroscopy, 58(5), 543-551. https://doi.org/10.1366/000370204774103363
Prospects and limitations of carbon nanotube field emission electron sources
Gröning, O., Clergereaux, R., Nilsson, L. O., Ruffieux, P., Gröning, P., & Schlapbach, L. (2002). Prospects and limitations of carbon nanotube field emission electron sources. Chimia, 56(10), 553-561. https://doi.org/10.2533/000942902777680081