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Enantioselective adsorption on magnetic surfaces
Safari, M. R., Matthes, F., Caciuc, V., Atodiresei, N., Schneider, C. M., Ernst, K. ‐H., & Bürgler, D. E. (2023). Enantioselective adsorption on magnetic surfaces. Advanced Materials. https://doi.org/10.1002/adma.202308666
Spin‐selective electron transport through single chiral molecules
Safari, M. R., Matthes, F., Schneider, C. M., Ernst, K. ‐H., & Bürgler, D. E. (2023). Spin‐selective electron transport through single chiral molecules. Small. https://doi.org/10.1002/smll.202308233
Driving a third generation molecular motor with electrons across a surface
Srivastava, G., Štacko, P., Mendieta-Moreno, J. I., Edalatmanesh, S., Kistemaker, J. C. M., Heideman, G. H., … Ernst, K. H. (2023). Driving a third generation molecular motor with electrons across a surface. ACS Nano, 17(4), 3931-3938. https://doi.org/10.1021/acsnano.2c12340
Highly stereospecific on‐surface dimerization into bishelicenes: topochemical Ullmann coupling of bromohelicene on Au(111)
Voigt, J., Martin, K., Neziri, E., Baljozović, M., Wäckerlin, C., Avarvari, N., & Ernst, K. H. (2023). Highly stereospecific on‐surface dimerization into bishelicenes: topochemical Ullmann coupling of bromohelicene on Au(111). Chemistry: A European Journal, 29(28), e202300134 (4 pp.). https://doi.org/10.1002/chem.202300134
Conglomerate aggregation of 7,12,17‐trioxa[11]helicene into homochiral two‐dimensional crystals on the Cu(100) surface
Irziqat, B., Berger, J., Cebrat, A., Mendieta-Moreno, J. I., Sundar, M. S., Bedekar, A. V., & Ernst, K. H. (2022). Conglomerate aggregation of 7,12,17‐trioxa[11]helicene into homochiral two‐dimensional crystals on the Cu(100) surface. Helvetica Chimica Acta, 105(12), e202200114 (8 pp.). https://doi.org/10.1002/hlca.202200114
Growth dynamics and electron reflectivity in ultrathin films of chiral heptahelicene on metal (100) surfaces studied by spin-polarized low energy electron microscopy
Baljozović, M., Fernandes Cauduro, A. L., Seibel, J., Mairena, A., Grass, S., Lacour, J., … Ernst, K. H. (2021). Growth dynamics and electron reflectivity in ultrathin films of chiral heptahelicene on metal (100) surfaces studied by spin-polarized low energy electron microscopy. Physica Status Solidi B: Basic Research, 258(12), 2100263 (8 pp.). https://doi.org/10.1002/pssb.202100263
Stereospecific on-surface cyclodehydrogenation of bishelicenes: preservation of handedness from helical to planar chirality
Irziqat, B., Cebrat, A., Baljozović, M., Martin, K., Parschau, M., Avarvari, N., & Ernst, K. H. (2021). Stereospecific on-surface cyclodehydrogenation of bishelicenes: preservation of handedness from helical to planar chirality. Chemistry: A European Journal, 27(54), 13523-13526. https://doi.org/10.1002/chem.202102069
Transition from homochiral clusters to racemate monolayers during 2D crystallization of trioxa[11] helicene on Ag(100)
Irziqat, B., Berger, J., Mendieta-Moreno, J. I., Sundar, M. S., Bedekar, A., & Ernst, K. H. (2021). Transition from homochiral clusters to racemate monolayers during 2D crystallization of trioxa[11] helicene on Ag(100). ChemPhysChem, 22(3), 293-297. https://doi.org/10.1002/cphc.202000853
Stereoselective on-surface cyclodehydrofluorization of a tetraphenylporphyrin and homochiral self-assembly
Chen, H., Tao, L., Wang, D., Wu, Z. Y., Zhang, J. L., Gao, S., … Gao, H. J. (2020). Stereoselective on-surface cyclodehydrofluorization of a tetraphenylporphyrin and homochiral self-assembly. Angewandte Chemie International Edition, 59(40), 17413-17416. https://doi.org/10.1002/anie.202005425
Near‐enantiopure trimerization of 9‐Ethynylphenanthrene on a chiralmetal surface
Stolz, S., Yakutovich, A. V., Prinz, J., Dienel, T., Pignedoli, C. A., Brune, H., … Widmer, R. (2020). Near‐enantiopure trimerization of 9‐Ethynylphenanthrene on a chiralmetal surface. Angewandte Chemie International Edition, 59(5), 18179-18183. https://doi.org/10.1002/anie.202006844
Chiral autocatalysis and mirror symmetry breaking
Gellman, A. J., & Ernst, K. H. (2018). Chiral autocatalysis and mirror symmetry breaking. Catalysis Letters, 148(6), 1610-1621. https://doi.org/10.1007/s10562-018-2380-x
Liquid crystalline filamentous biological colloids: analogies and differences
Nyström, G., & Mezzenga, R. (2018). Liquid crystalline filamentous biological colloids: analogies and differences. Current Opinion in Colloid and Interface Science, 38, 30-44. https://doi.org/10.1016/j.cocis.2018.08.004
Action spectra associated with inelastic two-electron tunneling through a single molecule: propene on Cu(211)
Ueba, H., Passerone, D., Parschau, M., & Ernst, K. H. (2018). Action spectra associated with inelastic two-electron tunneling through a single molecule: propene on Cu(211). Surface Science, 678, 206-214. https://doi.org/10.1016/j.susc.2018.06.007
Heterochiral to homochiral transition in pentahelicene 2D crystallization induced by second-layer nucleation
Mairena, A., Zoppi, L., Seibel, J., Troster, A. F., Grenader, K., Parschau, M., … Ernst, K. H. (2017). Heterochiral to homochiral transition in pentahelicene 2D crystallization induced by second-layer nucleation. ACS Nano, 11(1), 865-871. https://doi.org/10.1021/acsnano.6b07424
Pasteur’s Experiment Performed at the Nanoscale: Manual Separation of Chiral Molecules, One by One
Ernst, K. H., Baumann, S., Lutz, C. P., Seibel, J., Zoppi, L., & Heinrich, A. J. (2015). Pasteur’s Experiment Performed at the Nanoscale: Manual Separation of Chiral Molecules, One by One. Nano Letters, 15(8), 5388-5392. https://doi.org/10.1021/acs.nanolett.5b01762
Highly enantioselective adsorption of small prochiral molecules on a chiral intermetallic compound
Prinz, J., Gröning, O., Brune, H., & Widmer, R. (2015). Highly enantioselective adsorption of small prochiral molecules on a chiral intermetallic compound. Angewandte Chemie International Edition, 54(13), 3902-3906. https://doi.org/10.1002/anie.201410107
Stereochemistry of 2D molecular crystallization
Ernst, K. H. (2014). Stereochemistry of 2D molecular crystallization. Chimia, 68(1-2), 49-53. https://doi.org/10.2533/chimia.2014.49
Chiral reconstruction of Cu(110) after adsorption of fumaric acid
Karageorgaki, C., Passerone, D., & Ernst, K. H. (2014). Chiral reconstruction of Cu(110) after adsorption of fumaric acid. Surface Science, 629, 75-80. https://doi.org/10.1016/j.susc.2014.01.010
Reversible achiral-to-chiral switching of single Mn–phthalocyanine molecules by thermal hydrogenation and inelastic electron tunneling dehydrogenation
Yang, K., Liu, L., Zhang, L., Xiao, W., Fei, X., Chen, H., … Gao, H. J. (2014). Reversible achiral-to-chiral switching of single Mn–phthalocyanine molecules by thermal hydrogenation and inelastic electron tunneling dehydrogenation. ACS Nano, 8(3), 2246-2251. https://doi.org/10.1021/nn405490h
Molecular chirality in surface science
Ernst, K. H. (2013). Molecular chirality in surface science. Surface Science, 613, 1-5. https://doi.org/10.1016/j.susc.2013.03.014