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Quantifying alignment and quality of graphene nanoribbons: a polarized Raman spectroscopy approach
Darawish, R., Overbeck, J., Müllen, K., Calame, M., Ruffieux, P., Fasel, R., & Barin, G. B. (2024). Quantifying alignment and quality of graphene nanoribbons: a polarized Raman spectroscopy approach. Carbon, 218, 118688 (8 pp.). https://doi.org/10.1016/j.carbon.2023.118688
Tunable quantum dots from atomically precise graphene nanoribbons using a multi‐gate architecture
Zhang, J., Braun, O., Borin Barin, G., Sangtarash, S., Overbeck, J., Darawish, R., … Calame, M. (2023). Tunable quantum dots from atomically precise graphene nanoribbons using a multi‐gate architecture. Advanced Electronic Materials, 9(4), 2201204 (8 pp.). https://doi.org/10.1002/aelm.202201204
Growth optimization and device integration of narrow‐bandgap graphene nanoribbons
Borin Barin, G., Sun, Q., Di Giovannantonio, M., Du, C. ‐Z., Wang, X. ‐Y., Llinas, J. P., … Ruffieux, P. (2022). Growth optimization and device integration of narrow‐bandgap graphene nanoribbons. Small, 18(31), 2202301 (10 pp.). https://doi.org/10.1002/smll.202202301
Conductive hybrid Cu-HHTP-TCNQ metal–organic frameworks for chemiresistive sensing
Lüder, L., Gubicza, A., Stiefel, M., Overbeck, J., Beretta, D., Sadeghpour, A., … Calame, M. (2022). Conductive hybrid Cu-HHTP-TCNQ metal–organic frameworks for chemiresistive sensing. Advanced Electronic Materials, 8(3), 2100871 (10 pp.). https://doi.org/10.1002/aelm.202100871
High-speed identification of suspended carbon nanotubes using Raman spectroscopy and deep learning
Zhang, J., Perrin, M. L., Barba, L., Overbeck, J., Jung, S., Grassy, B., … Calame, M. (2022). High-speed identification of suspended carbon nanotubes using Raman spectroscopy and deep learning. Microsystems and Nanoengineering, 8, 19 (9 pp.). https://doi.org/10.1038/s41378-022-00350-w
Optimized graphene electrodes for contacting graphene nanoribbons
Braun, O., Overbeck, J., El Abbassi, M., Käser, S., Furrer, R., Olziersky, A., … Calame, M. (2021). Optimized graphene electrodes for contacting graphene nanoribbons. Carbon, 184, 331-339. https://doi.org/10.1016/j.carbon.2021.08.001
Benchmark and application of unsupervised classification approaches for univariate data
El Abbassi, M., Overbeck, J., Braun, O., Calame, M., van der Zant, H. S. J., & Perrin, M. L. (2021). Benchmark and application of unsupervised classification approaches for univariate data. Communications Physics, 4, 50 (9 pp.). https://doi.org/10.1038/s42005-021-00549-9
Combining polarized Raman spectroscopy and micropillar compression to study microscale structure-property relationships in mineralized tissues
Kochetkova, T., Peruzzi, C., Braun, O., Overbeck, J., Maurya, A. K., Neels, A., … Schwiedrzik, J. (2021). Combining polarized Raman spectroscopy and micropillar compression to study microscale structure-property relationships in mineralized tissues. Acta Biomaterialia, 119, 390-404. https://doi.org/10.1016/j.actbio.2020.10.034
Blocking lithium dendrite growth in solid-state batteries with an ultrathin amorphous Li-La-Zr-O solid electrolyte
Sastre, J., Futscher, M. H., Pompizi, L., Aribia, A., Priebe, A., Overbeck, J., … Romanyuk, Y. E. (2021). Blocking lithium dendrite growth in solid-state batteries with an ultrathin amorphous Li-La-Zr-O solid electrolyte. Communications Materials, 2, 76 (10 pp.). https://doi.org/10.1038/s43246-021-00177-4
Controlled quantum dot formation in atomically engineered graphene nanoribbon field-effect transistors
El Abbassi, M., Perrin, M. L., Borin Barin, G., Sangtarash, S., Overbeck, J., Braun, O., … Calame, M. (2020). Controlled quantum dot formation in atomically engineered graphene nanoribbon field-effect transistors. ACS Nano, 14(5), 5754-5762. https://doi.org/10.1021/acsnano.0c00604
A non-oxidizing fabrication method for lithographic break junctions of sensitive metals
Nyáry, A., Gubicza, A., Overbeck, J., Pósa, L., Makk, P., Calame, M., … Csontos, M. (2020). A non-oxidizing fabrication method for lithographic break junctions of sensitive metals. Nanoscale Advances, 2(9), 3829-3833. https://doi.org/10.1039/D0NA00498G
Massive dirac fermion behavior in a low bandgap graphene nanoribbon near a topological phase boundary
Sun, Q., Gröning, O., Overbeck, J., Braun, O., Perrin, M. L., Borin Barin, G., … Ruffieux, P. (2020). Massive dirac fermion behavior in a low bandgap graphene nanoribbon near a topological phase boundary. Advanced Materials, 32(12), 1906054 (8 pp.). https://doi.org/10.1002/adma.201906054
Optical imaging and spectroscopy of atomically precise armchair graphene nanoribbons
Zhao, S., Borin Barin, G., Cao, T., Overbeck, J., Darawish, R., Lyu, T., … Wang, F. (2020). Optical imaging and spectroscopy of atomically precise armchair graphene nanoribbons. Nano Letters, 20(1), 1124-1130. https://doi.org/10.1021/acs.nanolett.9b04497
Polarized Raman spectroscopy as a method for quantitative analysis of bone fibril orientation
Kochetkova, T., Braun, O., Overbeck, J., Peruzzi, C., Maurya, A., Michler, J., … Schwiedrzik, J. (2019). Polarized Raman spectroscopy as a method for quantitative analysis of bone fibril orientation. Presented at the Annual Meeting 2019, Swiss Society for Biomedical Engineering (SSBE). Geneva, Switzerland.
Polarized raman spectroscopy as a method for quantitative analysis of bone fibril orientation
Kochetkova, T., Braun, O., Overbeck, J., Peruzzi, C., Maurya, A., Michler, J., … Schwiedrzik, J. (2019). Polarized raman spectroscopy as a method for quantitative analysis of bone fibril orientation. Presented at the Empa PhD students' symposium. St. Gallen, Switzerland.
A universal length-dependent vibrational mode in graphene nanoribbons
Overbeck, J., Borin Barin, G., Daniels, C., Perrin, M. L., Braun, O., Sun, Q., … Calame, M. (2019). A universal length-dependent vibrational mode in graphene nanoribbons. ACS Nano, 13, 13083-13091. https://doi.org/10.1021/acsnano.9b05817
Optimized substrates and measurement approaches for Raman spectroscopy of graphene nanoribbons
Overbeck, J., Borin Barin, G., Daniels, C., Perrin, M., Liang, L., Braun, O., … Ruffieux, P. (2019). Optimized substrates and measurement approaches for Raman spectroscopy of graphene nanoribbons. Physica Status Solidi B: Basic Research, 256(12), 1900343 (8 pp.). https://doi.org/10.1002/pssb.201900343
In-situ formation of one-dimensional coordination polymers in molecular junctions
Vladyka, A., Perrin, M. L., Overbeck, J., Ferradás, R. R., García-Suárez, V., Gantenbein, M., … Calame, M. (2019). In-situ formation of one-dimensional coordination polymers in molecular junctions. Nature Communications, 10(1), 262 (9 pp.). https://doi.org/10.1038/s41467-018-08025-9
In situ strain tuning in hBN-encapsulated graphene electronic devices
Wang, L., Zihlmann, S., Baumgartner, A., Overbeck, J., Watanabe, K., Taniguchi, T., … Schönenberger, C. (2019). In situ strain tuning in hBN-encapsulated graphene electronic devices. Nano Letters, 19(6), 4097-4102. https://doi.org/10.1021/acs.nanolett.9b01491
Facile optimization of thermoelectric properties in PEDOT:PSS thin films through acido-base and redox dedoping using readily available salts
Saxena, N., Keilhofer, J., Maurya, A. K., Fortunato, G., Overbeck, J., & Müller-Buschbaum, P. (2018). Facile optimization of thermoelectric properties in PEDOT:PSS thin films through acido-base and redox dedoping using readily available salts. ACS Applied Energy Materials, 1(2), 336-342. https://doi.org/10.1021/acsaem.7b00334