[{"publisher":"Springer International Publishing","date_updated":"2026-03-11T10:34:43Z","date_created":"2026-03-11T10:30:16Z","author":[{"id":"53339","full_name":"Paradies, Jan","orcid":"0000-0002-3698-668X","last_name":"Paradies","first_name":"Jan"}],"title":"Chiral Borane-Based Lewis Acids for Metal Free Hydrogenations","doi":"10.1007/3418_2016_173","publication_status":"published","publication_identifier":{"isbn":["9783319708041","9783319708065"],"issn":["1436-6002","1616-8534"]},"place":"Cham","year":"2017","citation":{"apa":"Paradies, J. (2017). Chiral Borane-Based Lewis Acids for Metal Free Hydrogenations. In Topics in Organometallic Chemistry. Springer International Publishing. https://doi.org/10.1007/3418_2016_173","short":"J. Paradies, in: Topics in Organometallic Chemistry, Springer International Publishing, Cham, 2017.","bibtex":"@inbook{Paradies_2017, place={Cham}, title={Chiral Borane-Based Lewis Acids for Metal Free Hydrogenations}, DOI={10.1007/3418_2016_173}, booktitle={Topics in Organometallic Chemistry}, publisher={Springer International Publishing}, author={Paradies, Jan}, year={2017} }","mla":"Paradies, Jan. “Chiral Borane-Based Lewis Acids for Metal Free Hydrogenations.” Topics in Organometallic Chemistry, Springer International Publishing, 2017, doi:10.1007/3418_2016_173.","chicago":"Paradies, Jan. “Chiral Borane-Based Lewis Acids for Metal Free Hydrogenations.” In Topics in Organometallic Chemistry. Cham: Springer International Publishing, 2017. https://doi.org/10.1007/3418_2016_173.","ieee":"J. Paradies, “Chiral Borane-Based Lewis Acids for Metal Free Hydrogenations,” in Topics in Organometallic Chemistry, Cham: Springer International Publishing, 2017.","ama":"Paradies J. Chiral Borane-Based Lewis Acids for Metal Free Hydrogenations. In: Topics in Organometallic Chemistry. Springer International Publishing; 2017. doi:10.1007/3418_2016_173"},"_id":"64900","user_id":"53339","department":[{"_id":"2"},{"_id":"389"}],"language":[{"iso":"eng"}],"type":"book_chapter","publication":"Topics in Organometallic Chemistry","status":"public"},{"publication_status":"published","publication_identifier":{"issn":["1547-0091","1935-3804"]},"year":"2016","citation":{"apa":"Ruediger, A. A., Bremser, W., & Strube, O. I. (2016). The enzyme-mediated autodeposition of casein: effect of enzyme immobilization on deposition of protein structures. Journal of Coatings Technology and Research, 597–611. https://doi.org/10.1007/s11998-015-9757-1","short":"A.A. Ruediger, W. Bremser, O.I. Strube, Journal of Coatings Technology and Research (2016) 597–611.","mla":"Ruediger, Arne A., et al. “The Enzyme-Mediated Autodeposition of Casein: Effect of Enzyme Immobilization on Deposition of Protein Structures.” Journal of Coatings Technology and Research, 2016, pp. 597–611, doi:10.1007/s11998-015-9757-1.","bibtex":"@article{Ruediger_Bremser_Strube_2016, title={The enzyme-mediated autodeposition of casein: effect of enzyme immobilization on deposition of protein structures}, DOI={10.1007/s11998-015-9757-1}, journal={Journal of Coatings Technology and Research}, author={Ruediger, Arne A. and Bremser, Wolfgang and Strube, Oliver I.}, year={2016}, pages={597–611} }","ieee":"A. A. Ruediger, W. Bremser, and O. I. Strube, “The enzyme-mediated autodeposition of casein: effect of enzyme immobilization on deposition of protein structures,” Journal of Coatings Technology and Research, pp. 597–611, 2016, doi: 10.1007/s11998-015-9757-1.","chicago":"Ruediger, Arne A., Wolfgang Bremser, and Oliver I. Strube. “The Enzyme-Mediated Autodeposition of Casein: Effect of Enzyme Immobilization on Deposition of Protein Structures.” Journal of Coatings Technology and Research, 2016, 597–611. https://doi.org/10.1007/s11998-015-9757-1.","ama":"Ruediger AA, Bremser W, Strube OI. The enzyme-mediated autodeposition of casein: effect of enzyme immobilization on deposition of protein structures. Journal of Coatings Technology and Research. Published online 2016:597-611. doi:10.1007/s11998-015-9757-1"},"page":"597-611","date_updated":"2022-01-06T06:57:00Z","date_created":"2021-10-04T13:36:31Z","author":[{"first_name":"Arne A.","last_name":"Ruediger","full_name":"Ruediger, Arne A."},{"last_name":"Bremser","full_name":"Bremser, Wolfgang","first_name":"Wolfgang"},{"first_name":"Oliver I.","last_name":"Strube","full_name":"Strube, Oliver I."}],"title":"The enzyme-mediated autodeposition of casein: effect of enzyme immobilization on deposition of protein structures","doi":"10.1007/s11998-015-9757-1","type":"journal_article","publication":"Journal of Coatings Technology and Research","status":"public","_id":"25308","user_id":"32","department":[{"_id":"321"},{"_id":"301"}],"language":[{"iso":"eng"}]},{"language":[{"iso":"eng"}],"user_id":"32","department":[{"_id":"321"},{"_id":"301"}],"_id":"25309","status":"public","type":"journal_article","publication":"Macromolecular Materials and Engineering","doi":"10.1002/mame.201600034","title":"Nanoscaled Biocoatings via Enzyme Mediated Autodeposition of Casein","date_created":"2021-10-04T13:37:17Z","author":[{"first_name":"Arne A.","full_name":"Ruediger, Arne A.","last_name":"Ruediger"},{"full_name":"Bremser, Wolfgang","last_name":"Bremser","first_name":"Wolfgang"},{"full_name":"Strube, Oliver I.","last_name":"Strube","first_name":"Oliver I."}],"date_updated":"2022-01-06T06:57:00Z","citation":{"mla":"Ruediger, Arne A., et al. “Nanoscaled Biocoatings via Enzyme Mediated Autodeposition of Casein.” Macromolecular Materials and Engineering, 2016, pp. 1181–90, doi:10.1002/mame.201600034.","short":"A.A. Ruediger, W. Bremser, O.I. Strube, Macromolecular Materials and Engineering (2016) 1181–1190.","bibtex":"@article{Ruediger_Bremser_Strube_2016, title={Nanoscaled Biocoatings via Enzyme Mediated Autodeposition of Casein}, DOI={10.1002/mame.201600034}, journal={Macromolecular Materials and Engineering}, author={Ruediger, Arne A. and Bremser, Wolfgang and Strube, Oliver I.}, year={2016}, pages={1181–1190} }","apa":"Ruediger, A. A., Bremser, W., & Strube, O. I. (2016). Nanoscaled Biocoatings via Enzyme Mediated Autodeposition of Casein. Macromolecular Materials and Engineering, 1181–1190. https://doi.org/10.1002/mame.201600034","ieee":"A. A. Ruediger, W. Bremser, and O. I. Strube, “Nanoscaled Biocoatings via Enzyme Mediated Autodeposition of Casein,” Macromolecular Materials and Engineering, pp. 1181–1190, 2016, doi: 10.1002/mame.201600034.","chicago":"Ruediger, Arne A., Wolfgang Bremser, and Oliver I. Strube. “Nanoscaled Biocoatings via Enzyme Mediated Autodeposition of Casein.” Macromolecular Materials and Engineering, 2016, 1181–90. https://doi.org/10.1002/mame.201600034.","ama":"Ruediger AA, Bremser W, Strube OI. Nanoscaled Biocoatings via Enzyme Mediated Autodeposition of Casein. Macromolecular Materials and Engineering. Published online 2016:1181-1190. doi:10.1002/mame.201600034"},"page":"1181-1190","year":"2016","publication_status":"published","publication_identifier":{"issn":["1438-7492"]}},{"publication_status":"published","publication_identifier":{"issn":["0300-9440"]},"year":"2016","citation":{"ama":"Ruediger AA, Terborg E, Bremser W, Strube OI. Influences on the film thickness in the enzymatic autodeposition process of casein. Progress in Organic Coatings. Published online 2016:56-61. doi:10.1016/j.porgcoat.2016.02.002","ieee":"A. A. Ruediger, E. Terborg, W. Bremser, and O. I. Strube, “Influences on the film thickness in the enzymatic autodeposition process of casein,” Progress in Organic Coatings, pp. 56–61, 2016, doi: 10.1016/j.porgcoat.2016.02.002.","chicago":"Ruediger, Arne A., Elke Terborg, Wolfgang Bremser, and Oliver I. Strube. “Influences on the Film Thickness in the Enzymatic Autodeposition Process of Casein.” Progress in Organic Coatings, 2016, 56–61. https://doi.org/10.1016/j.porgcoat.2016.02.002.","bibtex":"@article{Ruediger_Terborg_Bremser_Strube_2016, title={Influences on the film thickness in the enzymatic autodeposition process of casein}, DOI={10.1016/j.porgcoat.2016.02.002}, journal={Progress in Organic Coatings}, author={Ruediger, Arne A. and Terborg, Elke and Bremser, Wolfgang and Strube, Oliver I.}, year={2016}, pages={56–61} }","mla":"Ruediger, Arne A., et al. “Influences on the Film Thickness in the Enzymatic Autodeposition Process of Casein.” Progress in Organic Coatings, 2016, pp. 56–61, doi:10.1016/j.porgcoat.2016.02.002.","short":"A.A. Ruediger, E. Terborg, W. Bremser, O.I. Strube, Progress in Organic Coatings (2016) 56–61.","apa":"Ruediger, A. A., Terborg, E., Bremser, W., & Strube, O. I. (2016). Influences on the film thickness in the enzymatic autodeposition process of casein. Progress in Organic Coatings, 56–61. https://doi.org/10.1016/j.porgcoat.2016.02.002"},"page":"56-61","date_updated":"2022-01-06T06:57:00Z","date_created":"2021-10-04T13:37:58Z","author":[{"last_name":"Ruediger","full_name":"Ruediger, Arne A.","first_name":"Arne A."},{"first_name":"Elke","full_name":"Terborg, Elke","last_name":"Terborg"},{"last_name":"Bremser","full_name":"Bremser, Wolfgang","first_name":"Wolfgang"},{"last_name":"Strube","full_name":"Strube, Oliver I.","first_name":"Oliver I."}],"title":"Influences on the film thickness in the enzymatic autodeposition process of casein","doi":"10.1016/j.porgcoat.2016.02.002","type":"journal_article","publication":"Progress in Organic Coatings","status":"public","_id":"25310","user_id":"32","department":[{"_id":"321"},{"_id":"301"}],"language":[{"iso":"eng"}]},{"year":"2016","citation":{"mla":"Strube, Oliver I., et al. “Enzyme-Mediated In Situ Synthesis and Deposition of Nonaggregated Melanin Protoparticles.” Macromolecular Materials and Engineering, 2016, pp. 801–04, doi:10.1002/mame.201500315.","bibtex":"@article{Strube_Büngeler_Bremser_2016, title={Enzyme-Mediated In Situ Synthesis and Deposition of Nonaggregated Melanin Protoparticles}, DOI={10.1002/mame.201500315}, journal={Macromolecular Materials and Engineering}, author={Strube, Oliver I. and Büngeler, Anne and Bremser, Wolfgang}, year={2016}, pages={801–804} }","short":"O.I. Strube, A. Büngeler, W. Bremser, Macromolecular Materials and Engineering (2016) 801–804.","apa":"Strube, O. I., Büngeler, A., & Bremser, W. (2016). Enzyme-Mediated In Situ Synthesis and Deposition of Nonaggregated Melanin Protoparticles. Macromolecular Materials and Engineering, 801–804. https://doi.org/10.1002/mame.201500315","chicago":"Strube, Oliver I., Anne Büngeler, and Wolfgang Bremser. “Enzyme-Mediated In Situ Synthesis and Deposition of Nonaggregated Melanin Protoparticles.” Macromolecular Materials and Engineering, 2016, 801–4. https://doi.org/10.1002/mame.201500315.","ieee":"O. I. Strube, A. Büngeler, and W. Bremser, “Enzyme-Mediated In Situ Synthesis and Deposition of Nonaggregated Melanin Protoparticles,” Macromolecular Materials and Engineering, pp. 801–804, 2016, doi: 10.1002/mame.201500315.","ama":"Strube OI, Büngeler A, Bremser W. Enzyme-Mediated In Situ Synthesis and Deposition of Nonaggregated Melanin Protoparticles. Macromolecular Materials and Engineering. Published online 2016:801-804. doi:10.1002/mame.201500315"},"page":"801-804","publication_status":"published","publication_identifier":{"issn":["1438-7492"]},"title":"Enzyme-Mediated In Situ Synthesis and Deposition of Nonaggregated Melanin Protoparticles","doi":"10.1002/mame.201500315","date_updated":"2022-01-06T06:57:00Z","author":[{"last_name":"Strube","full_name":"Strube, Oliver I.","first_name":"Oliver I."},{"first_name":"Anne","last_name":"Büngeler","full_name":"Büngeler, Anne"},{"first_name":"Wolfgang","full_name":"Bremser, Wolfgang","last_name":"Bremser"}],"date_created":"2021-10-04T13:38:41Z","status":"public","type":"journal_article","publication":"Macromolecular Materials and Engineering","language":[{"iso":"eng"}],"_id":"25311","user_id":"32","department":[{"_id":"321"},{"_id":"301"}]},{"status":"public","abstract":[{"text":"Non-trivial electronic properties of silver telluride and other chalcogenides, such as the presence of a topological insulator state, electronic topological transitions, metallization, and the possible emergence of superconductivity under pressure have attracted attention in recent years. In this work, we studied the electronic properties of silver selenide (Ag2Se). We performed direct current electrical resistivity measurements, in situ Raman spectroscopy, and synchrotron x-ray diffraction accompanied by ab initio calculations to explore pressure-induced changes to the atomic and electronic structure of Ag2Se. The temperature dependence of the electrical resistivity was measured up to 30 GPa in the 4–300 K temperature interval. Resistivity data showed an unusual increase in the thermal energy gap of phase I, which is a semiconductor under ambient conditions. Recently, a similar effect was reported for the 3D topological insulator Bi2Se3. Raman spectroscopy studies revealed lattice instability in phase I indicated by the softening of observed vibrational modes with pressure. Our hybrid functional band structure calculations predicted that phase I of Ag2Se would be a narrow band gap semiconductor, in accordance with experimental results. At a pressure of ~7.5 GPa, Ag2Se underwent a structural transition to phase II with an orthorhombic Pnma structure. The temperature dependence of the resistivity of Ag2Se phase II demonstrated its metallic character. Ag2Se phase III, which is stable above 16.5 GPa, is also metallic according to the resistivity data. No indication of the superconducting transition is found above 4 K in the studied pressure range.","lang":"eng"}],"publication":"Journal of Physics: Condensed Matter","type":"journal_article","extern":"1","language":[{"iso":"eng"}],"department":[{"_id":"613"}],"user_id":"71051","_id":"19842","intvolume":" 28","page":"385801","citation":{"ama":"Naumov P, Barkalov O, Mirhosseini H, Felser C, A Medvedev S. Atomic and electronic structures evolution of the narrow band gap semiconductor Ag2Se under high pressure. Journal of Physics: Condensed Matter. 2016;28(38):385801. doi:10.1088/0953-8984/28/38/385801","chicago":"Naumov, P, O Barkalov, Hossein Mirhosseini, C Felser, and S A Medvedev. “Atomic and Electronic Structures Evolution of the Narrow Band Gap Semiconductor Ag2Se under High Pressure.” Journal of Physics: Condensed Matter 28, no. 38 (2016): 385801. https://doi.org/10.1088/0953-8984/28/38/385801.","ieee":"P. Naumov, O. Barkalov, H. Mirhosseini, C. Felser, and S. A Medvedev, “Atomic and electronic structures evolution of the narrow band gap semiconductor Ag2Se under high pressure,” Journal of Physics: Condensed Matter, vol. 28, no. 38, p. 385801, 2016.","short":"P. Naumov, O. Barkalov, H. Mirhosseini, C. Felser, S. A Medvedev, Journal of Physics: Condensed Matter 28 (2016) 385801.","bibtex":"@article{Naumov_Barkalov_Mirhosseini_Felser_A Medvedev_2016, title={Atomic and electronic structures evolution of the narrow band gap semiconductor Ag2Se under high pressure}, volume={28}, DOI={10.1088/0953-8984/28/38/385801}, number={38}, journal={Journal of Physics: Condensed Matter}, publisher={{IOP} Publishing}, author={Naumov, P and Barkalov, O and Mirhosseini, Hossein and Felser, C and A Medvedev, S}, year={2016}, pages={385801} }","mla":"Naumov, P., et al. “Atomic and Electronic Structures Evolution of the Narrow Band Gap Semiconductor Ag2Se under High Pressure.” Journal of Physics: Condensed Matter, vol. 28, no. 38, {IOP} Publishing, 2016, p. 385801, doi:10.1088/0953-8984/28/38/385801.","apa":"Naumov, P., Barkalov, O., Mirhosseini, H., Felser, C., & A Medvedev, S. (2016). Atomic and electronic structures evolution of the narrow band gap semiconductor Ag2Se under high pressure. Journal of Physics: Condensed Matter, 28(38), 385801. https://doi.org/10.1088/0953-8984/28/38/385801"},"year":"2016","issue":"38","doi":"10.1088/0953-8984/28/38/385801","title":"Atomic and electronic structures evolution of the narrow band gap semiconductor Ag2Se under high pressure","volume":28,"author":[{"last_name":"Naumov","full_name":"Naumov, P","first_name":"P"},{"first_name":"O","last_name":"Barkalov","full_name":"Barkalov, O"},{"first_name":"Hossein","id":"71051","full_name":"Mirhosseini, Hossein","last_name":"Mirhosseini","orcid":"https://orcid.org/0000-0001-6179-1545"},{"first_name":"C","full_name":"Felser, C","last_name":"Felser"},{"last_name":"A Medvedev","full_name":"A Medvedev, S","first_name":"S"}],"date_created":"2020-10-01T16:33:51Z","date_updated":"2022-01-06T06:54:13Z","publisher":"{IOP} Publishing"},{"type":"journal_article","status":"public","_id":"20941","user_id":"7266","department":[{"_id":"35"},{"_id":"302"},{"_id":"321"}],"isi":"1","publication_status":"published","publication_identifier":{"eissn":["1527-2648"],"issn":["1438-1656"]},"citation":{"ieee":"C. Hoppe et al., “Influence of the Surface and Heat Treatment on the Bond Strength of Galvanized Steel/Aluminum Composites Joined by Plastic Deformation,” ADVANCED ENGINEERING MATERIALS, vol. 18, no. 8, pp. 1371–1380, 2016.","chicago":"Hoppe, Christian, Christoph Ebbert, Richard Grothe, Hans Christian Schmidt, Illia Hordych, Werner Homberg, Hans Juergen Maier, and Guido Grundmeier. “Influence of the Surface and Heat Treatment on the Bond Strength of Galvanized Steel/Aluminum Composites Joined by Plastic Deformation.” ADVANCED ENGINEERING MATERIALS 18, no. 8 (2016): 1371–80. https://doi.org/10.1002/adem.201600085.","ama":"Hoppe C, Ebbert C, Grothe R, et al. Influence of the Surface and Heat Treatment on the Bond Strength of Galvanized Steel/Aluminum Composites Joined by Plastic Deformation. ADVANCED ENGINEERING MATERIALS. 2016;18(8):1371-1380. doi:10.1002/adem.201600085","bibtex":"@article{Hoppe_Ebbert_Grothe_Schmidt_Hordych_Homberg_Maier_Grundmeier_2016, title={Influence of the Surface and Heat Treatment on the Bond Strength of Galvanized Steel/Aluminum Composites Joined by Plastic Deformation}, volume={18}, DOI={10.1002/adem.201600085}, number={8}, journal={ADVANCED ENGINEERING MATERIALS}, author={Hoppe, Christian and Ebbert, Christoph and Grothe, Richard and Schmidt, Hans Christian and Hordych, Illia and Homberg, Werner and Maier, Hans Juergen and Grundmeier, Guido}, year={2016}, pages={1371–1380} }","mla":"Hoppe, Christian, et al. “Influence of the Surface and Heat Treatment on the Bond Strength of Galvanized Steel/Aluminum Composites Joined by Plastic Deformation.” ADVANCED ENGINEERING MATERIALS, vol. 18, no. 8, 2016, pp. 1371–80, doi:10.1002/adem.201600085.","short":"C. Hoppe, C. Ebbert, R. Grothe, H.C. Schmidt, I. Hordych, W. Homberg, H.J. Maier, G. Grundmeier, ADVANCED ENGINEERING MATERIALS 18 (2016) 1371–1380.","apa":"Hoppe, C., Ebbert, C., Grothe, R., Schmidt, H. C., Hordych, I., Homberg, W., … Grundmeier, G. (2016). Influence of the Surface and Heat Treatment on the Bond Strength of Galvanized Steel/Aluminum Composites Joined by Plastic Deformation. ADVANCED ENGINEERING MATERIALS, 18(8), 1371–1380. https://doi.org/10.1002/adem.201600085"},"page":"1371-1380","intvolume":" 18","date_updated":"2022-01-06T06:54:41Z","author":[{"last_name":"Hoppe","id":"27401","full_name":"Hoppe, Christian","first_name":"Christian"},{"full_name":"Ebbert, Christoph","id":"7266","last_name":"Ebbert","first_name":"Christoph"},{"full_name":"Grothe, Richard","last_name":"Grothe","first_name":"Richard"},{"full_name":"Schmidt, Hans Christian","last_name":"Schmidt","first_name":"Hans Christian"},{"full_name":"Hordych, Illia","last_name":"Hordych","first_name":"Illia"},{"full_name":"Homberg, Werner","last_name":"Homberg","first_name":"Werner"},{"full_name":"Maier, Hans Juergen","last_name":"Maier","first_name":"Hans Juergen"},{"first_name":"Guido","last_name":"Grundmeier","id":"194","full_name":"Grundmeier, Guido"}],"volume":18,"doi":"10.1002/adem.201600085","publication":"ADVANCED ENGINEERING MATERIALS","abstract":[{"text":"The influence of a chemical or mechanical surface modification followed by different post-heat treatments on the bond strength of galvanized steel/ aluminum composites is studied. An incremental rolling process is used for joint formation based on plastic deformation. The morphology, the chemical state of the modified surfaces as well as the cross-section, and local potential distribution of the welded zone is characterized by different microscopic and spectroscopic methods. The stability of the joint is analyzed by a shear-force test in combination with microscopic failure analysis. A clear correlation between pre/post-treatment and the joint strength is observed.","lang":"eng"}],"external_id":{"isi":["000382984300008"]},"language":[{"iso":"eng"}],"quality_controlled":"1","issue":"8","year":"2016","date_created":"2021-01-13T10:12:46Z","title":"Influence of the Surface and Heat Treatment on the Bond Strength of Galvanized Steel/Aluminum Composites Joined by Plastic Deformation"},{"year":"2016","issue":"6","quality_controlled":"1","title":"Molecular Engineering of Aluminum-Copper Interfaces for Joining by Plastic Deformation","date_created":"2021-01-13T10:12:47Z","abstract":[{"lang":"eng","text":"Interface modification based on ultra-thin mercapto-propyl(trimethoxy) silane (MPTMS) films is shown to promote joining of copper and aluminum by plastic deformation followed by a heat treatment. The surface morphology and the surface chemistry of the metal substrates were analyzed by means of FE-SEM, XPS, and FT-IRRAS. The spectroscopic data show that the MPTMS film is crosslinked via Si-O-Si bonds and that stable Cu-S and Si-O-Al interfacial bonds are formed. The shear-force tests of the joints led to force displacement curves that are characteristic for a covalently bonded interface. Complementary cross sectional SEM and EDS analysis of the joint proved that a defect-free interface was formed without any measureable interdiffusion of metals across the interface or cracking of an oxide films."}],"publication":"ADVANCED ENGINEERING MATERIALS","language":[{"iso":"eng"}],"external_id":{"isi":["000378684200023"]},"citation":{"short":"C. Hoppe, C. Ebbert, M. Voigt, H.C. Schmidt, D. Rodman, W. Homberg, H.J. Maier, G. Grundmeier, ADVANCED ENGINEERING MATERIALS 18 (2016) 1066–1074.","bibtex":"@article{Hoppe_Ebbert_Voigt_Schmidt_Rodman_Homberg_Maier_Grundmeier_2016, title={Molecular Engineering of Aluminum-Copper Interfaces for Joining by Plastic Deformation}, volume={18}, DOI={10.1002/adem.201500501}, number={6}, journal={ADVANCED ENGINEERING MATERIALS}, author={Hoppe, Christian and Ebbert, Christoph and Voigt, Markus and Schmidt, Hans Christian and Rodman, Dmytro and Homberg, Werner and Maier, Hans Juergen and Grundmeier, Guido}, year={2016}, pages={1066–1074} }","mla":"Hoppe, Christian, et al. “Molecular Engineering of Aluminum-Copper Interfaces for Joining by Plastic Deformation.” ADVANCED ENGINEERING MATERIALS, vol. 18, no. 6, 2016, pp. 1066–74, doi:10.1002/adem.201500501.","apa":"Hoppe, C., Ebbert, C., Voigt, M., Schmidt, H. C., Rodman, D., Homberg, W., … Grundmeier, G. (2016). Molecular Engineering of Aluminum-Copper Interfaces for Joining by Plastic Deformation. ADVANCED ENGINEERING MATERIALS, 18(6), 1066–1074. https://doi.org/10.1002/adem.201500501","chicago":"Hoppe, Christian, Christoph Ebbert, Markus Voigt, Hans Christian Schmidt, Dmytro Rodman, Werner Homberg, Hans Juergen Maier, and Guido Grundmeier. “Molecular Engineering of Aluminum-Copper Interfaces for Joining by Plastic Deformation.” ADVANCED ENGINEERING MATERIALS 18, no. 6 (2016): 1066–74. https://doi.org/10.1002/adem.201500501.","ieee":"C. Hoppe et al., “Molecular Engineering of Aluminum-Copper Interfaces for Joining by Plastic Deformation,” ADVANCED ENGINEERING MATERIALS, vol. 18, no. 6, pp. 1066–1074, 2016.","ama":"Hoppe C, Ebbert C, Voigt M, et al. Molecular Engineering of Aluminum-Copper Interfaces for Joining by Plastic Deformation. 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Fukuto, B.M. Ocko, D.J. Bonthuis, R.R. Netz, H.-G. Steinrück, D. Pontoni, I. Kuzmenko, J. Haddad, M. Deutsch, Physical Review Letters 117 (2016) 256102.","mla":"Fukuto, M., et al. “Nanoscale Structure of the Oil-Water Interface.” Physical Review Letters, vol. 117, 2016, p. 256102, doi:10.1103/physrevlett.117.256102.","bibtex":"@article{Fukuto_Ocko_Bonthuis_Netz_Steinrück_Pontoni_Kuzmenko_Haddad_Deutsch_2016, title={Nanoscale Structure of the Oil-Water Interface}, volume={117}, DOI={10.1103/physrevlett.117.256102}, journal={Physical Review Letters}, author={Fukuto, M. and Ocko, B. M. and Bonthuis, D. J. and Netz, R. R. and Steinrück, Hans-Georg and Pontoni, D. and Kuzmenko, I. and Haddad, J. and Deutsch, M.}, year={2016}, pages={256102} }","apa":"Fukuto, M., Ocko, B. M., Bonthuis, D. J., Netz, R. R., Steinrück, H.-G., Pontoni, D., Kuzmenko, I., Haddad, J., & Deutsch, M. (2016). Nanoscale Structure of the Oil-Water Interface. 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