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Horst Hahn

Prof. Dr.-Ing. Horst Hahn

Executive Director and Research Unit Chair
Research Unit: Nanostructured Materials
Room: 0-422
Phone: 0721/608-26351
Fax: 0721/608-26368
horst hahnJor2∂kit edu

Karlsruhe Institute of Technology (KIT)
Institute of Nanotechnology
Hermann-von-Helmholtz-Platz 1
76344 Eggenstein-Leopoldshafen, Germany

  1. Doping of nematic cyanobiphenyl liquid crystals with mesogen-hybridized magnetic nanoparticles.
    Appel, I.; Nádasi, H.; Reitz, C.; Sebastián, N.; Hahn, H.; Eremin, A.; Stannarius, R.; Behrens, S. S.
    2017. Physical chemistry, chemical physics, 19 (19), 12127–12135. doi:10.1039/C7CP01438D
  2. Sub-50 nm Channel Vertical Field-Effect Transistors using Conventional Ink-Jet Printing.
    Baby, T. T.; Rommel, M.; von Seggern, F.; Friederich, P.; Reitz, C.; Dehm, S.; Kübel, C.; Wenzel, W.; Hahn, H.; Dasgupta, S.
    2017. Advanced materials, 29 (4), Art. Nr. 1603858. doi:10.1002/adma.201603858
  3. Embroidered Copper Microwire Current Collector for Improved Cycling Performance of Silicon Anodes in Lithium-Ion Batteries.
    Breitung, B.; Aguiló-Aguayo, N.; Bechtold, T.; Hahn, H.; Janek, J.; Brezesinski, T.
    2017. Scientific reports, 7, 13010. doi:10.1038/s41598-017-13261-y
  4. Digital power and performance analysis of inkjet printed ring oscillators based on electrolyte-gated oxide electronics.
    Cadilha Marques, G.; Garlapati, S. K.; Dehm, S.; Dasgupta, S.; Hahn, H.; Tahoori, M.; Aghassi-Hagmann, J.
    2017. Applied physics letters, 111 (10), 102103. doi:10.1063/1.4991919
  5. Multicomponent equiatomic rare earth oxides.
    Djenadic, R.; Sarkar, A.; Clemens, O.; Loho, C.; Botros, M.; Chakravadhanula, V. S. K.; Kübel, C.; Bhattacharya, S. S.; Gandhi, A. S.; Hahn, H.
    2017. Materials Research Letters, 5 (2), 102–109. doi:10.1080/21663831.2016.1220433
  6. Evidence of the chemical stability of the garnet-type solid electrolyte Li₅La₃Ta₂O₁₂ towards lithium by a surface science approach.
    Fingerle, M.; Loho, C.; Ferber, T.; Hahn, H.; Hausbrand, R.
    2017. Journal of power sources, 366, 72–79. doi:10.1016/j.jpowsour.2017.08.109
  7. Room-Temperature Processing of Printed Oxide FETs Using Ultraviolet Photonic Curing.
    Garlapati, S. K.; Gebauer, J. S.; Dehm, S.; Bruns, M.; Winterer, M.; Hahn, H.; Dasgupta, S.
    2017. Advanced electronic materials, 3 (9), Art. Nr. 1600476. doi:10.1002/aelm.201600476
  8. The effect of NaCl on room-temperature-processed indium oxide nanoparticle thin films for printed electronics.
    Häming, M.; Baby, T. T.; Garlapati, S. K.; Krause, B.; Hahn, H.; Dasgupta, S.; Weinhardt, L.; Heske, C.
    2017. Applied surface science, 396, 912–919. doi:10.1016/j.apsusc.2016.11.060
  9. Transformations of α’ martensite in Ti–Fe alloys under high pressure torsion.
    Kilmametov, A.; Ivanisenko, Y.; Straumal, B.; Mazilkin, A. A.; Gornakova, A. S.; Kriegel, M. J.; Fabrichnaya, O. B.; Rafaja, D.; Hahn, H.
    2017. Scripta materialia, 136, 46–49. doi:10.1016/j.scriptamat.2017.04.010
  10. Bulk Density Measurements of Small Solid Objects Using Laser Confocal Microscopy.
    Kilmametov, A.; Gröger, R.; Hahn, H.; Schimmel, T.; Walheim, S.
    2017. advanced materials techologies, 2 (1), 1600115/1–12. doi:10.1002/admt.201600115
  11. Imaging the Structural Evolution in Nanocrystalline Metals during Mechanical Deformation.
    Kübel, C.; Kobler, A.; Kashiwar, A.; Hahn, H.
    2017. Microscopy and microanalysis, 23 (S1), 748–749. doi:10.1017/S1431927617004408
  12. Modelling of High Pressure Torsion using FEM.
    Kulagin, R.; Beygelzimer, Y.; Ivanisenko, Y.; Mazilkin, A.; Hahn, H.
    2017. Procedia engineering, 207, 1445–1450. doi:10.1016/j.proeng.2017.10.911
  13. On processing-structure-property relations and high ionic conductivity in garnet-type Li₅La₃Ta₂O₁₂ solid electrolyte thin films grown by CO₂-laser assisted CVD.
    Loho, C.; Djenadić, R. R.; Mundt, P.; Clemens, O.; Hahn, H.
    2017. Solid state ionics, 313, 32–44. doi:10.1016/j.ssi.2017.11.005
  14. Garnet-type Li₇La₃Zr₂O₁₂ solid electrolyte thin films grown by Co₂-laser assisted CVD for all-solid-state batteries.
    Loho, C.; Djenadic, R.; Bruns, M.; Clemens, O.; Hahn, H.
    2017. Journal of the Electrochemical Society, 164 (1), A6131-A6139. doi:10.1149/2.0201701jes
  15. Recent Progress in High Entropy Alloy Research.
    MacDonald, B. E.; Fu, Z.; Zheng, B.; Chen, W.; Lin, Y.; Chen, F.; Zhang, L.; Ivanisenko, J.; Zhou, Y.; Hahn, H.; Lavernia, E. J.
    2017. JOM, 1–8. doi:10.1007/s11837-017-2484-6
  16. Investigation of the deposition conditions on the microstructure of TiZrCuPd nano-glass thin films.
    Mohri, M.; Wang, D.; Ivanisenko, J.; Gleiter, H.; Hahn, H.
    2017. Materials characterization, 131, 140–147. doi:10.1016/j.matchar.2017.07.014
  17. Hybrid supercapacitors for reversible control of magnetism.
    Molinari, A.; Leufke, P. M.; Reitz, C.; Dasgupta, S.; Witte, R.; Kruk, R.; Hahn, H.
    2017. Nature Communications, 8, Art. Nr.: 15339. doi:10.1038/ncomms15339
  18. Cu-Zr nanoglasses : Atomic structure, thermal stability and indentation properties.
    Nandam, S. H.; Ivanisenko, Y.; Schwaiger, R.; Śniadecki, Z.; Mu, X.; Wang, D.; Chellali, R.; Boll, T.; Kilmametov, A.; Bergfeldt, T.; Gleiter, H.; Hahn, H.
    2017. Acta materialia, 136, 181–189. doi:10.1016/j.actamat.2017.07.001
  19. Mixing instabilities during shearing of metals.
    Pouryazdan, M.; Kaus, B. J. P.; Rack, A.; Ershov, A.; Hahn, H.
    2017. Nature Communications, 8, Art.Nr.:1611. doi:10.1038/s41467-017-01879-5
  20. On the relative intensity of Poisson’s spot.
    Reisinger, T.; Leufke, P. M.; Gleiter, H.; Hahn, H.
    2017. New journal of physics, 19 (3), 033022. doi:10.1088/1367-2630/aa5e7f
  21. Applying Capacitive Energy Storage for In Situ Manipulation of Magnetization in Ordered Mesoporous Perovskite-Type LSMO Thin Films.
    Reitz, C.; Wang, D.; Stoeckel, D.; Beck, A.; Leichtweiss, T.; Hahn, H.; Brezesinski, T.
    2017. ACS applied materials & interfaces, 9 (27), 22799–22807. doi:10.1021/acsami.7b01978
  22. Nanocrystalline multicomponent entropy stabilised transition metal oxides.
    Sarkar, A.; Djenadic, R.; Usharani, N. J.; Sanghvi, K. P.; Chakravadhanula, V. S. K.; Gandhi, A. S.; Hahn, H.; Bhattacharya, S. S.
    2017. Journal of the European Ceramic Society, 37 (2), 747–754. doi:10.1016/j.jeurceramsoc.2016.09.018
  23. Multicomponent equiatomic rare earth oxides with a narrow band gap and associated praseodymium multivalency.
    Sarkar, A.; Loho, C.; Velasco, L.; Thomas, T.; Bhattacharya, S. S.; Hahn, H.; Djenadic, R.
    2017. Dalton transactions, 46 (36), 12167–12176. doi:10.1039/c7dt02077e
  24. High-pressure torsion driven phase transformations in Cu–Al–Ni shape memory alloys.
    Straumal, B. B.; Kilmametov, A. R.; López, G. A.; López-Ferreño, I.; Nó, M. L.; San Juan, J.; Hahn, H.; Baretzky, B.
    2017. Acta materialia, 125, 274–285. doi:10.1016/j.actamat.2016.12.003
  25. Enhanced inter-diffusion of immiscible elements Fe/Cu at the interface of FeZr/CuZr amorphous multilayers.
    Sun, M.; Rauf, A.; Zhang, Y.; Sha, G.; Peng, G.; Yu, Z.; Guo, C.; Fang, Y.; Lan, S.; Feng, T.; Hahn, H.; Gleiter, H.
    2017. Materials Research Letters, 6 (1), 55–60. doi:10.1080/21663831.2017.1389773
  26. Progress of nanostructured metallic glasses.
    Tao, F.; Hahn, H.; Gleiter, H.
    2017. Chinese physics / B, 66 (17), 176110. doi:10.7498/aps.66.176110
  27. Atomic structure of Fe90Sc10 glassy nanoparticles and nanoglasses.
    Wang, C.; Guo, X.; Ivanisenko, Y.; Goel, S.; Nirschl, H.; Gleiter, H.; Hahn, H.
    2017. Scripta materialia, 139, 9–12. doi:10.1016/j.scriptamat.2017.06.007
  28. Epitaxial strain-engineered self-assembly of magnetic nanostructures in FeRh thin films.
    Witte, R.; Kruk, R.; Molinari, A.; Wang, D.; Schlabach, S.; Brand, R. A.; Provenzano, V.; Hahn, H.
    2017. Journal of physics / D, 50 (2), 025007. doi:10.1088/1361-6463/50/2/025007

  1. Field assisted sintering of fine-grained Li₇₋₃ᵪLa₃Zr₂AlₓO₁₂ solid electrolyte and the influence of the microstructure on the electrochemical performance.
    Botros, M.; Djenadic, R.; Clemens, O.; Möller, M.; Hahn, H.
    2016. Journal of Power Sources, 309, 108–115. doi:10.1016/j.jpowsour.2016.01.086
  2. High-Performance Low-Temperature Li+ Intercalation in Disordered Rock-Salt Li-Cr-V Oxyfluorides.
    Chen, R.; Ren, S.; Mu, X.; Maawad, E.; Zander, S.; Hempelmann, R.; Hahn, H.
    2016. ChemElectroChem, 3 (6), 892–895. doi:10.1002/celc.201600033
  3. Identifying the redox activity of cation-disordered Li-Fe-V-Ti oxide cathodes for Li-ion batteries.
    Chen, R.; Witte, R.; Heinzmann, R.; Ren, S.; Mangold, S.; Hahn, H.; Hempelmann, R.; Ehrenberg, H.; Indris, S.
    2016. Physical chemistry, chemical physics, 18 (11), 7695–7701. doi:10.1039/c6cp00131a
  4. Mechanisms of Nanoglass Ultrastability.
    Danilov, D.; Hahn, H.; Gleiter, H.; Wenzel, W.
    2016. ACS Nano, 10 (3), 3241–3247. doi:10.1021/acsnano.5b05897
  5. Thick electrodes for Li-ion batteries: A model based analysis.
    Danner, T.; Singh, M.; Hein, S.; Kaiser, J.; Hahn, H.; Latz, A.
    2016. Journal of power sources, 334, 191–201. doi:10.1016/j.jpowsour.2016.09.143
  6. Toward On-and-Off Magnetism: Reversible Electrochemistry to Control Magnetic Phase Transitions in Spinel Ferrites.
    Dasgupta, S.; Das, B.; Li, Q.; Wang, D.; Baby, T. T.; Indris, S.; Knapp, M.; Ehrenberg, H.; Fink, K.; Kruk, R.; Hahn, H.
    2016. Advanced functional materials, 26 (41), 7507–7515. doi:10.1002/adfm.201603411
  7. Is Li-doped MgAl₂O₄ a potential solid electrolyte for an all-spinel Li-ion battery?.
    Djenadic, R.; Botros, M.; Hahn, H.
    2016. Solid State Ionics, 287, 71–76. doi:10.1016/j.ssi.2016.02.008
  8. Generating Metallic Amorphous Core-Shell Nanoparticles by a Solid-State Amorphization Process.
    Feng, T.; Wang, D.; Wang, C.; Chen, N.; Hahn, H.; Gleiter, H.
    2016. Particle & particle systems characterization, 33 (2), 82–88. doi:10.1002/ppsc.201500184
  9. Ni-P nanoglass prepared by multi-phase pulsed electrodeposition.
    Guo, C.; Fang, Y.; Wu, B.; Lan, S.; Peng, G.; Wang, X.-L.; Hahn, H.; Gleiter, H.; Feng, T.
    2016. Materials Research Letters, 5 (5), 293–299. doi:10.1080/21663831.2016.1264495
  10. In situ TEM studies of micron-sized all-solid-state fluoride ion batteries: Preparation, prospects, and challenges.
    Hammad Fawey, M.; Chakravadhanula, V. S. K.; Reddy, M. A.; Rongeat, C.; Scherer, T.; Hahn, H.; Fichtner, M.; Kübel, C. K. U.
    2016. Microscopy research and technique, 79 (7), 615–624. doi:10.1002/jemt.22675
  11. Impact of Casimir-Polder interaction on Poisson-spot diffraction at a dielectric sphere.
    Hemmerich, J. L.; Bennett, R.; Reisinger, T.; Nimmrichter, S.; Fiedler, J.; Hahn, H.; Gleiter, H.; Buhmann, S. Y.
    2016. Physical review / A, 94 (2), Art.Nr.:023621. doi:10.1103/PhysRevA.94.023621
  12. Contribution of grain boundary related strain accommodation to deformation of ultrafine-grained palladium.
    Ivanisenko, Y.; Enikeev, N. A.; Yang, K.; Smoliakov, A.; Soloviev, V. P.; Fecht, H.; Hahn, H.
    2016. Materials Science and Engineering A, 668, 255–262. doi:10.1016/j.msea.2016.05.036
  13. High Pressure Torsion Extrusion as a new severe plastic deformation process.
    Ivanisenko, Y. V.; Kulagin, R.; Fedorov, V. T.; Mazilkin, A. A.; Scherer, T.; Baretzky, B. M. M.; Hahn, H.
    2016. Materials science and engineering / A, 664, 247–256. doi:10.1016/j.msea.2016.04.008
  14. Magnetization and stability study of a cobalt-ferrite-based ferrofluid.
    Kamali, S.; Pouryazdan, M.; Ghafari, M.; Itou, M.; Rahman, M.; Stroeve, P.; Hahn, H.; Sakurai, Y.
    2016. Journal of Magnetism and Magnetic Materials, 404, 143–147. doi:10.1016/j.jmmm.2015.12.007
  15. Synthesis, structural characterisation and proton conduction of two new hydrated phases of barium ferrite BaFeO2.5-x(OH)₂ₓ.
    Knöchel, P. L.; Keenan, P. J.; Loho, C.; Reitz, C.; Witte, R.; Knight, K. S.; Wright, A. J.; Hahn, H.; Slater, P. R.; Clemens, O.
    2016. Journal of Materials Chemistry A, 4 (9), 3415–3430. doi:10.1039/c5ta06383c
  16. In situ observation of deformation processes in nanocrystalline face-centered cubic metals.
    Kobler, A.; Brandl, C.; Hahn, H.; Kübel, C.
    2016. Beilstein journal of nanotechnology, 7, 572–580. doi:10.3762/bjnano.7.50
  17. Evaluation of structure and mechanical properties of Ni-rich NiTi/Kapton composite film.
    Mohri, M.; Nili-Ahmadabadi, M.; PouryazdanPanah, M.; Hahn, H.
    2016. Materials science and engineering / A, 668, 13–19. doi:10.1016/j.msea.2016.05.044
  18. Interface and strain effects on the H-sorption thermodynamics of size-selected Mg nanodots.
    Molinari, A.; D’Amico, F.; Calizzi, M.; Zheng, Y.; Boelsma, C.; Mooij, L.; Lei, Y.; Hahn, H.; Dam, B.; Pasquini, L.
    2016. International journal of hydrogen energy, 41 (23), 9841–9851. doi:10.1016/j.ijhydene.2016.02.003
  19. Development of a water based process for stable conversion cathodes on the basis of FeF₃.
    Pohl, A.; Faraz, M.; Schröder, A.; Baunach, M.; Schabel, W.; Guda, A.; Shapovalov, V.; Soldatov, A.; Chakravadhanula, V. S. K.; Kübel, C.; Witte, R.; Hahn, H.; Diemant, T.; Behm, R. J.; Emerich, H.; Fichtner, M.
    2016. Journal of power sources, 313, 213–222. doi:10.1016/j.jpowsour.2016.02.080
  20. In situ tuning of magnetization via topotactic lithium insertion in ordered mesoporous lithium ferrite thin films.
    Reitz, C.; Suchomski, C.; Wang, D.; Hahn, H.; Brezesinski, T.
    2016. Journal of materials chemistry / C, 4 (38), 8889–8896. doi:10.1039/c6tc02731h
  21. Hierarchical Carbon with High Nitrogen Doping Level: A Versatile Anode and Cathode Host Material for Long-Life Lithium-Ion and Lithium-Sulfur Batteries.
    Reitz, C.; Breitung, B.; Schneider, A.; Wang, D.; Lehr, M. von der; Leichtweiss, T.; Janek, J.; Hahn, H.; Brezesinski, T.
    2016. ACS applied materials & interfaces, 8 (16), 10274–10282. doi:10.1021/acsami.5b12361
  22. A systematic study of thick electrodes for high energy lithium ion batteries.
    Singh, M.; Kaiser, J.; Hahn, H.
    2016. Journal of electroanalytical chemistry, 782, 245–249. doi:10.1016/j.jelechem.2016.10.040
  23. Nanoscale morphology of Ni₅₀Ti₄₅Cu₅ nanoglass.
    Sniadecki, Z.; Wang, D.; Ivanisenko, Y.; Chakravadhanula, V. S. K.; Kübel, C.; Hahn, H.; Gleiter, H.
    2016. Materials characterization, 113, 26–33. doi:10.1016/j.matchar.2015.12.025
  24. Facile fabrication of electrolyte-gated single-crystalline cuprous oxide nanowire field-effect transistors.
    Stoesser, A.; Seggern, F. von; Purohit, S.; Nasr, B.; Kruk, R.; Dehm, S.; Wang, D.; Hahn, H.; Dasgupta, S.
    2016. Nanotechnology, 27 (41), Art.Nr.:415205. doi:10.1088/0957-4484/27/41/415205
  25. Combined mechanochemical/thermal synthesis of microcrystalline pyroxene LiFeSi₂O₆ and one-step mechanosynthesis of nanoglassy LiFeSi₂O₆−based composite.
    Turianicová, E.; Witte, R.; Da Silva, K. L.; Zorkovská, A.; Senna, M.; Hahn, H.; Heitjans, P.; Šepelák, V.
    2016. Journal of alloys and compounds, 707, 310–314. doi:10.1016/j.jallcom.2016.11.172
  26. Surface segregation of primary glassy nanoparticles of Fe90Sc10 nanoglass.
    Wang, C.; Wang, D.; Mu, X.; Goel, S.; Feng, T.; Ivanisenko, Y.; Hahn, H.; Gleiter, H.
    2016. Materials letters, 181, 248–252. doi:10.1016/j.matlet.2016.05.189
  27. Sample size effects on strength and deformation mechanism of Sc₇₅Fe₂₅ nanoglass and metallic glass.
    Wang, X.; Jiang, F.; Hahn, H.; Li, J.; Gleiter, H.; Sun, J.; Fang, J.
    2016. Scripta Materialia, 116, 95–99. doi:10.1016/j.scriptamat.2016.01.036
  28. Tailoring magnetic frustration in strained epitaxial FeRh films.
    Witte, R.; Kruk, R.; Gruner, M. E.; Brand, R. A.; Wang, D.; Schlabach, S.; Beck, A.; Provenzano, V.; Pentcheva, R.; Wende, H.; Hahn, H.
    2016. Physical review / B, 93 (10), 104416. doi:10.1103/PhysRevB.93.104416
  29. Designing biocompatible Ti-based amorphous thin films with no toxic element.
    Zhao, D.; Chen, C.; Yao, K.; Shi, X.; Wang, Z.; Hahn, H.; Gleiter, H.; Chen, N.
    2016. Journal of alloys and compounds, 707, 142–147. doi:10.1016/j.jallcom.2016.09.183

  1. Ion-irradiation-assisted tuning of phase transformations and physical properties in single crystalline Fe₇Pd₃ ferromagnetic shape memory alloy thin films.
    Arabi-Hashemi, A.; Witte, R.; Lotnyk, A.; Brand, R. A.; Setzer, A.; Esquinazi, P.; Hahn, H.; Averback, R. S.; Mayr, S. G.
    2015. New journal of physics, 17, 053029/1–14. doi:10.1088/1367-2630/17/5/053029
  2. A general route toward complete room temperature processing of printed and high performance oxide electronics.
    Baby, T. T.; Garlapati, S. K.; Dehm, S.; Häming, M.; Kruk, R.; Hahn, H.; Dasgupta, S.
    2015. ACS Nano, 9 (3), 3075–3083. doi:10.1021/nn507326z
  3. A nanoglass alloying immiscible Fe and Cu at the nanoscale.
    Chen, N.; Wang, D.; Feng, T.; Kruk, R.; Yao, K. F.; Louzguine-Luzgin, D. V.; Hahn, H.; Gleiter, H.
    2015. Nanoscale, 7, 6607–6611. doi:10.1039/C5NR01406A
  4. Nanoscale spinel LiFeTiO₄ for intercalaction pseudocapacitive Li⁺ storage.
    Chen, R.; Knapp, M.; Yavuz, M.; Ren, S.; Witte, R.; Heinzmann, R.; Hahn, H.; Ehrenberg, H.; Indris, S.
    2015. Physical chemistry, chemical physics, 17 (2), 1482–1488. doi:10.1039/C4CP04655B
  5. Disordered lithium-rich oxyfluoride as a stable host for enhanced Li⁺ intercalation storage.
    Chen, R.; Ren, S.; Knapp, M.; Witter, R.; Fichtner, M.; Hahn, H.
    2015. Advanced energy materials, 5 (9), 1401814/1–7. doi:10.1002/aenm.201401814
  6. Li+ intercalation in isostructural Li2VO3 and Li2VO2 with O2- and mixed O2-/F- anions.
    Chen, R.; Ren, S.; Yavuz, M.; Guda, A. A.; Shapovalov, V.; Witter, R.; Fichtner, M.; Hahn, H.
    2015. Physical Chemistry Chemical Physics, 17 (26), 17288–17295. doi:10.1039/c5cp02505b
  7. A local distortion of polyhedra in the novel chromium doped mullite-type bismuth ferrite Bi₂(CrₓFe₁₋ₓ)₄O₉.
    da Silva, K. L.; MacHado, C. F. C.; Fabian, M.; Harnicarova, M.; Valicek, M.; Hahn, H.; Sepelak, V.
    2015. Materials letters, 161, 488–490. doi:10.1016/j.matlet.2015.09.021
  8. Mechanosynthesis and structural characterization of nanocrystalline Ce₁₋ₓYₓO₂₋sub(σ) (x=0.1-0.35) solid solutions.
    Fabian, M.; Antic, B.; Girman, V.; Vucinic-Vasic, M.; Kremenovic, A.; Suzuki, S.; Hahn, H.; Sepelak, V.
    2015. Journal of solid state chemistry, 230, 42–48. doi:10.1016/j.jssc.2015.06.027
  9. A simple and straightforward mechanochemical synthesis of the far-from-equilibrium zinc aluminate, ZnAl₂O₄, and its response to thermal treatment.
    Fabian, M.; Bottke, P.; Girman, V.; Düvel, A.; Da Silva, K. L.; Wilkening, M.; Hahn, H.; Heitjans, P.; Sepelak, V.
    2015. RSC Advances, 5 (67), 54321–54328. doi:10.1039/C5RA09098A
  10. A versatile apparatus for the fine-tuned synthesis of cluster-based materials.
    Fischer, A.; Kruk, R.; Hahn, H.
    2015. Review of scientific instruments, 86 (2), 023304/1–10. doi:10.1063/1.4908166
  11. Magnetic properties of iron cluster/chromium matrix nanocomposites.
    Fischer, A.; Kruk, R.; Wang, D.; Hahn, H.
    2015. Beilstein journal of nanotechnology, 6, 1158–1163. doi:10.3762/bjnano.6.117
  12. Ink-jet printed CMOS electronics from oxide semiconductors.
    Garlapati, S. K.; Baby, T. T.; Dehm, S.; Hammad, M.; Chakravadhanula, V. S. K.; Kruk, R.; Hahn, H.; Dasgupta, S.
    2015. Small, 11, 3591–3596. doi:10.1002/smll.201403288
  13. Unexpected magnetic behavior in amorphous Co₉₀Sc₁₀ alloy.
    Ghafari, M.; Sakurai, Y.; Peng, G.; Fang, Y. N.; Feng, T.; Hahn, H.; Gleiter, H.; Itou, M.; Kamali, S.
    2015. Applied physics letters, 107 (13), 132406/1–4. doi:10.1063/1.4932113
  14. Controlling spin polarized band-structure by variation of vacancy intensity in nanostructures.
    Kamali, S.; Kimametov, A.; Ghafari, M.; Itou, M.; Hahn, H.; Sakurai, Y.
    2015. Journal of physics / Condensed matter, 27 (7), 075304/1–7. doi:10.1088/0953-8984/27/7/075304
  15. Orientation dependent fracture behavior of nanotwinned copper.
    Kobler, A.; Hodge, A. M.; Hahn, H.; Kübel, C.
    2015. Applied physics letters, 106 (26), Art. Nr. 261902. doi:10.1063/1.4923398
  16. Nanotwinned silver nanowires: Structure and mechanical properties.
    Kobler, A.; Beuth, T.; Klöffel, T.; Prang, R.; Moosmann, M.; Scherer, T.; Walheim, S.; Hahn, H.; Kübel, C.; Meyer, B.; Schimmel, T.; Bitzek, E.
    2015. Acta materialia, 92, 299–308. doi:10.1016/j.actamat.2015.02.041
  17. Microstructure and mechanical behavior of a shape memory Ni-Ti bi-layer thin film.
    Mohri, M.; Nili-Ahmadabadi, M.; Ivanisenko, J.; Schwaiger, R.; Hahn, H.; Chakravadhanula, V. S. K.
    2015. Thin solid films, 583, 245–254. doi:10.1016/j.tsf.2015.03.057
  18. Chemical vapor synthesis of FeOₓ-BaTiO₃ nanocomposites.
    Mojic-Lante, B.; Djenadic, R.; Chakravadhanula, V. S. K.; Kübel, C.; Sedic, V. V.; Hahn, H.
    2015. Journal of the American Ceramic Society, 98, 1724–1730. doi:10.1111/jace.13531
  19. Improved voltage and cycling for Li⁺ intercalation in high-capacity disordered oxyfluoride cathodes.
    Ren, S.; Chen, R.; Maawad, E.; Dolotko, O.; Guda, A. A.; Shapovalov, V.; Wang, D.; Hahn, H.; Fichtner, M.
    2015. Advanced science, 2 (10), 1500128/1–6. doi:10.1002/advs.201500128
  20. Modification of tin oxide nanoparticles by fluorocarbon solids via a mechanochemical route.
    Senna, M.; Turianicova, E.; Zorkovska, A.; Makreski, P.; Kanuchova, M.; Scholz, G.; Balaz, M.; Balaz, P.; Sepelak, V.; Hahn, H.
    2015. Journal of Nanoparticle Research, 17 (9), 376/1–14. doi:10.1007/s11051-015-3166-3
  21. Thick electrodes for high energy lithium ion batteries.
    Singh, M.; Kaiser, J.; Hahn, H.
    2015. Journal of the Electrochemical Society, 162 (7), A1196-A1201. doi:10.1149/2.0401507jes
  22. Phase transformations in Ti-Fe alloys induced by high-pressure torsion.
    Straumal, B. B.; Kilmametov, A. R.; Ivanisenko, Y.; Gornakova, A. S.; Mazilkin, A. A.; Kriegel, M. J.; Fabrichnaya, O. B.; Baretzky, B.; Hahn, H.
    2015. Advanced engineering materials, 17, 1835–1841. doi:10.1002/adem.201500143
  23. Plasticity of a scandium-based nanoglass.
    Wang, X. L.; Jiang, F.; Hahn, H.; Gleiter, H.; Sun, J.; Fang, J. X.
    2015. Scripta materialia, 98, 40–43. doi:10.1016/j.scriptamat.2014.11.010

  1. A low dimensional composite of hexagonal lithium manganese borate (LiMnBO₃), a cathode material for Li-ion batteries.
    Afyon, S.; Kundu, D.; Darbandi, A. J.; Hahn, H.; Krumeich, F.; Nesper, R.
    2014. Journal of materials chemistry / A, 2, 18946–18951. doi:10.1039/C4TA04209C
  2. The power of in situ pulsed laser deposition synchrotron characterization for the detection of domain formation during growth of Ba₀̣₅Sr₀̣₅TiO₃ on MgO.
    Bauer, S.; Lazarev, S.; Molinari, A.; Breitenstein, A.; Leufke, P.; Kruk, R.; Hahn, H.; Baumbach, T.
    2014. Journal of Synchrotron Radiation, 21 (2), 386–394. doi:10.1107/S1600577513034358
  3. Reversible in-situ TEM electrochemical studies of fluoride ion battery.
    Chakravadhanula, V. S. K.; Fawey, M. H.; Kuebel, C.; Scherer, T.; Rongeat, C.; Reddy, M. A.; Fichtner, M.; Hahn, H.
    2014. Microscopy and Microanalysis, 20 (Supplement 3), 1620–1621. doi:10.1017/S1431927614009830
  4. (De)lithiation-induced phase transitions of LiMTiO₄ spinels.
    Chen, R.; Knapp, M.; Yavuz, M.; Hahn, H.
    2014. ECS transactions, 61 (27), 19–28. doi:10.1149/06127.0019ecst
  5. Reversible Li⁺ storage in a LiMnTiO₄ spinel and its structural transition mechanisms.
    Chen, R.; Knapp, M.; Yavuz, M.; Heinzmann, R.; Wang, D.; Ren, S.; Trouillet, V.; Lebedkin, S.; Doyle, S.; Hahn, H.; Ehrenberg, H.; Indris, S.
    2014. The journal of physical chemistry <Washington, DC> / C, 118 (24), 12608–12616. doi:10.1021/jp501618n
  6. Crystallographic and magnetic structure of the Perovskite-type compound BaFeO₂̣₅: unrivaled complexity in oxygen vacancy ordering.
    Clemens, O.; Gröting, M.; Witte, R.; Perez-Mato, J. M.; Loho, C.; Berry, F. J.; Kruk, R.; Knight, K. S.; Wright, A. J.; Hahn, H.; Slater, P. R.
    2014. Inorganic chemistry, 53, 5911–5921. doi:10.1021/ic402988y
  7. Introducing a large polar tetragonal distortion into Ba-doped BiFeO₃ by low-temperature fluorination.
    Clemens, O.; Kruk, R.; Patterson, E. A.; Loho, C.; Reitz, C.; Wright, A. J.; Knight, K. S.; Hahn, H.; Slater, P. R.
    2014. Inorganic chemistry, 53, 12572–12583. doi:10.1021/ic502183t
  8. Electrochemical fluorination of perovskite type BaFeO₂̣₅.
    Clemens, O.; Rongeat, C.; Reddy, M. A.; Giehr, A.; Fichtner, M.; Hahn, H.
    2014. Dalton transactions, 43, 15771–15778. doi:10.1039/C4DT02485K
  9. Intercalation-driven reversible control of magnetism in bulk ferromagnets.
    Dasgupta, S.; Das, B.; Knapp, M.; Brand, R. A.; Ehrenberg, H.; Kruk, R.; Hahn, H.
    2014. Advanced materials, 26, 4639–4644. doi:10.1002/adma.201305932
  10. Dynamic control over electronic transport in 3D bulk nanographene via interfacial charging.
    Dasgupta, S.; Wang, D.; Kübel, C.; Hahn, H.; Baumann, F.; Biener, J.
    2014. Advanced Functional Materials, 24, 3494–3500. doi:10.1002/adfm.201303534
  11. Nebulized spray pyrolysis of Al-doped Li₇La₃Zr₂O₁₂ solid electrolyte for battery applications.
    Djenadic, R.; Botros, M.; Benel, C.; Clemens, O.; Indris, S.; Choudhary, A.; Bergfeldt, T.; Hahn, H.
    2014. Solid state ionics, 253, 49–56. doi:10.1016/j.ssi.2014.05.007
  12. Microstructural evolution of nanolayered Cu-Nb composites subjected to high-pressure torsion.
    Ekiz, E. H.; Lach, T. G.; Averback, R. S.; Mara, N. A.; Beyerlein, I. J.; Pouryazdan, M.; Hahn, H.; Bellon, P.
    2014. Acta materialia, 72, 178–191. doi:10.1016/j.actamat.2014.03.040
  13. Thermal and plastic behavior of nanoglasses.
    Franke, O.; Leisen, D.; Gleiter, H.; Hahn, H.
    2014. Journal of materials research, 29, 1210–1216. doi:10.1557/jmr.2014.101
  14. Uniaxial in-plane magnetization of iron nanolayers grown within an amorphous matrix.
    Ghafari, M.; Mattheis, R.; McCord, J.; Hahn, H.; Brand, R. A.; Macedo, W. A. A.
    2014. Applied physics letters, 105, 073102/1–4. doi:10.1063/1.4893600
  15. Nanostructured solids. From nano-glasses to quantum transistors.
    Gleiter, H.; Schimmel, T.; Hahn, H.
    2014. Nano today, 9, 17–68. doi:10.1016/j.nantod.2014.02.008
  16. Variation of the deformation mechanisms in a nanocrystalline Pd 10 at.% Au alloy at room and cryogenic temperatures.
    Ivanisenko, Y.; Tabachnikova, E. D.; Psaruk, I. A.; Smirnov, S. N.; Kilmametov, A.; Kobler, A.; Kübel, C.; Kurmanaeva, L.; Csach, K.; Mishkuf, Y.; Scherer, T.; Semerenko, Y. A.; Hahn, H.
    2014. International journal of plasticity, 60, 40–57. doi:10.1016/j.ijplas.2014.04.011
  17. Electrochemical delithiation/relithiation of LiCoPO₄: A two-step reaction mechanism investigated by in situ X-ray diffraction, in situ X-ray absorption spectroscopy, and ex situ ⁷Li/³¹P NMR spectroscopy.
    Kaus, M.; Issac, I.; Heinzmann, R.; Doyle, S.; Mangold, S.; Hahn, H.; Chakravadhanula, V. S. K.; Kübel, C.; Ehrenberg, H.; Indris, S.
    2014. Journal of Physical Chemistry C, 118, 17279–17290. doi:10.1021/jp503306v
  18. Untangling dislocation and grain boundary medated plasticity in nanocrystalline nickel.
    Lohmiller, J.; Grewer, M.; Braun, C.; Kobler, A.; Kübel, C.; Schüler, K.; Honkimäki, V.; Hahn, H.; Kraft, O.; Birringer, R.; Gruber, P. A.
    2014. Acta Materialia, 65, 295–307. doi:10.1016/j.actamat.2013.10.071
  19. CO₂-laser flash evaporation as novel CVD precursor delivery system for functional thin film growth.
    Loho, C.; Darbandi, A. J.; Djenadic, R.; Clemens, O.; Hahn, H.
    2014. Chemical vapor deposition, 20 (4-6), 152–160. doi:10.1002/cvde.201307089
  20. Direct preparation of ultrafine BaTiO3 nanoparticles by chemical vapor synthesis.
    Mojic-Lante, B.; Djenadic, R.; Srdic, V. V.; Hahn, H.
    2014. Journal of nanoparticle research, 16, 2618/1–9. doi:10.1007/s11051-014-2618-5
  21. Metal-semiconductor hybrid thin films in field-effect transistors.
    Okamura, K.; Dehm, S.; Hahn, H.
    2014. Applied physics letters, 103, 253111/1–4. doi:10.1063/1.4851895
  22. Inverse Hall-petch effect in quasi- and nanocrystalline materials.
    Padmanabhan, K. A.; Sripathi, S.; Hahn, H.; Gleiter, H.
    2014. Materials letters, 133, 151–154. doi:10.1016/j.matlet.2014.06.153
  23. Ordered mesoporous thin film ferroelectrics of biaxially textured lead zirconate titanate (PZT) by chemical solution deposition.
    Reitz, C.; Leufke, P. M.; Hahn, H.; Brezesinski, T.
    2014. Chemistry of materials, 26, 2195–2202. doi:10.1021/cm500381g
  24. Large magnetoresistance and electrostatic control of magnetism in ordered mesoporous La₁₋ₓCaₓMnO₃ thin films.
    Reitz, C.; Leufke, P. M.; Schneider, R.; Hahn, H.; Brezesinski, T.
    2014. Chemistry of materials, 26, 5745–5751. doi:10.1021/cm5028282
  25. Sliding wear-induced chemical nanolayering in Cu-Ag, and its implications for high wear resistance.
    Ren, F.; Arshad, S. N.; Bellon, P.; Averback, R. S.; Pouryazdan, M.; Hahn, H.
    2014. Acta materialia, 72, 148–158. doi:10.1016/j.actamat.2014.03.060
  26. Fluorine incorporation into SnO₂ nanoparticles by co-milling with polyvinylidene fluoride.
    Senna, M.; Turianicova, E.; Sepelak, V.; Bruns, M.; Scholz, G.; Lebedkin, S.; Kübel, C.; Wang, D.; Kanuchova, M.; Kaus, M.; Hahn, H.
    2014. Solid state sciences, 30, 36–43. doi:10.1016/j.solidstatesciences.2014.02.010
  27. The mechanically induced structural disorder in barium hexaferrite, BaFe₁₂O₁₉, and its impact on magnetism.
    Sepelak, V.; Myndyk, M.; Witte, R.; Röder, J.; Menzel, D.; Schuster, R. H.; Hahn, H.; Heitjans, P.; Becker, K. D.
    2014. Faraday discussions, 170, 121–135. doi:10.1039/C3FD00137G
  28. Influence of interface on structure and magnetic properties of Fe₅₀B₅₀ nanoglass.
    Stoesser, A.; Ghafari, M.; Klimametov, A.; Gleiter, H.; Sakurai, Y.; Itou, M.; Kohara, S.; Hahn, H.; Kamali, S.
    2014. Journal of applied physics, 116, 134305/1–7. doi:10.1063/1.4897153
  29. Production of nanocrystalline lithium fluoride by planetary ball-milling.
    Wall, C.; Pohl, A.; Knapp, M.; Hahn, H.; Fichtner, M.
    2014. Powder technology, 264, 409–417. doi:10.1016/j.powtec.2014.05.043
  30. Self-organization of mesoscopic silver wires by electrochemical deposition.
    Zhong, S.; Koch, T.; Walheim, S.; Roesner, H.; Nold, E.; Kobler, A.; Scherer, T.; Wang, D.; Kuebel, C.; Wang, M.; Hahn, H.; Schimmel, T.
    2014. Beilstein journal of nanotechnology, 5 (1), 1285–1290. doi:10.3762/bjnano.5.142

  1. Experimental and theoretical analysis of the upper critical field in ferromagnet-superconductor-ferromagnet trilayers.
    Antropov, E.; Kalenkov, M. S.; Kehrle, J.; Zdravkov, V. I.; Morari, R.; Socrovisciuc, A.; Lenk, D.; Horn, S.; Tagirov, L. R.; Zaikin, A. D.; Sidorenko, A. S.; Hahn, H.; Tidecks, R.
    2013. Superconductor Science and Technology, 26, 085003/1–9. doi:10.1088/0953-2048/26/8/085003
  2. Dependence of shear-induced mixing on length scale.
    Arshad, S. N.; Lach, T. G.; Pouryazdan, M.; Hahn, H.; Bellon, P.; Dillon, S. J.; Averback, R. S.
    2013. Scripta Materialia, 68, 215–218. doi:10.1016/j.scriptamat.2012.10.027
  3. Temperature tolerance study of high performance electrochemically gated SnO₂ nanowire field-effect transistors.
    Basr, B.; Zhao-Karger, Z.; Wang, D.; Kruk, R.; Hahn, H.; Dasgupta, S.
    2013. Journal of materials chemistry / C, 1, 2534–2539. doi:10.1039/c3tc00061c
  4. Nanocrystalline solid solutions AlySn1 -yO2-y/2 (y = 0.57, 0.4) as electrode materials for lithium-ion batteries.
    Becker, S. M.; Issac, I.; Heinzmann, R.; Scheuermann, M.; Eichhöfer, A.; Wang, D.; Chakravadhanula, V. S. K.; Kübel, C.; Ulrich, A. S.; Hahn, H.; Indris, S.
    2013. Journal of power sources, 229, 149–158. doi:10.1016/j.jpowsour.2012.11.142
  5. Synthesis and characterization of nanoparticulate La₀̣₆Sr₀̣₄CoO₃₋sub(δ) cathodes for thin film solid oxide fuel cells.
    Benel, C.; Darbandi, A. J.; Djenadic, R.; Evans, A.; Tölke, R.; Prestat, M.; Hahn, H.
    2013. Journal of Power Sources, 229, 258–264. doi:10.1016/j.jpowsour.2012.11.149
  6. Influence of particle size and fluorination ratio of CFₓ precursor compounds on the electrochemical performance of C-FeF₂ nanocomposites for reversible lithium storage.
    Breitung, B.; Reddy, M. A.; Chakravadhanula, V. S. K.; Engel, M.; Kübel, C.; Powell, A. K.; Hahn, H.; Fichtner, M.
    2013. Beilstein journal of nanotechnology, 4, 705–713. doi:10.3762/bjnano.4.80
  7. TEM investigations on FeF₂ based nanocomposite battery materials.
    Chakravadhanula, V. S. K.; Kübel, C.; Reddy, M. A.; Breitung, B.; Powell, A. K.; Fichtner, M.; Hahn, H.
    2013. Microscopy and microanalysis, 19 (Suppl. S2), 1524–1525. doi:10.1017/S1431927613009616
  8. A novel Ti-based nanoglass composite with submicron–nanometer-sized hierarchical structures to modulate osteoblast behaviors.
    Chen, N.; Shi, X.; Witte, R.; Nakayama, K. S.; Ohmura, K.; Wu, H.; Takeuchi, A.; Hahn, H.; Esashi, M.; Gleiter, H.; Inoue, A.; Louzguine, D. V.
    2013. Journal of materials chemistry / B, 1 (20), 2568–2574. doi:10.1039/c3tb20153h
  9. Structural Evolution of Li2Fe1-yMnySiO4 (y = 0, 0.2, 0.5, 1) Cathode Materials for Li-Ion Batteries upon Electrochemical Cycling.
    Chen, R.; Heinzmann, R.; Mangold, S.; Chakravadhanula, K.; Hahn, H.; Indris, S.
    2013. The journal of physical chemistry <Washington, DC> / C, 117, 884–893. doi:10.1021/jp310935j
  10. Integration of spin-coated nanoparticulate-based La₀̣₆Sr₀̣₄CoO₃₋sub(δ) cathodes into micro-solid oxide fuel cell membranes.
    Evans, A.; Benel, C.; Darbandi, A. J.; Hahn, H.; Martynczuk, J.; Gauckler, L. J.; Prestat, M.
    2013. Fuel Cells, 13, 441–444. doi:10.1002/fuce.201300020
  11. Advances in nanomaterials.
    Gleiter, H.; Hahn, H.; Schimmel, T.
    2013. Beilstein Journal of Nanotechnology, 4, 805–806. doi:10.3762/bjnano.4.91
  12. Near-field effects and energy transfer in hybrid metal-oxide nanostructures.
    Herr, U.; Kuerbanjiang, B.; Benel, C.; Papageorgiou, G.; Goncalves, M.; Boneberg, J.; Leiderer, P.; Ziemann, P.; Marek, P.; Hahn, H.
    2013. Beilstein Journal of Nanotechnology, 4, 306–317. doi:10.3762/bjnano.4.34
  13. Synthesis and electrochemical performance of nanocrystalline Al₀̣₄Mg₀̣₂Sn₀̣₄O₁̣₆ and Al₀̣₂₅Mg₀̣₃₈Sn₀̣₃₈O₁̣₅ investigated by in situ XRD, ²⁷Al/¹¹⁹Sn MAS NMR, ¹¹⁹Sn Mössbauer spectroscopy, and galvanostatic cycling.
    Issac, I.; Heinzmann, R.; Kaus, M.; Zhao-Karger, Z.; Gesswein, H.; Bergfeldt, T.; Chakravadhanula, V. S. K.; Kübel, C.; Hahn, H.; Indris, S.
    2013. Journal of materials chemistry / A, 1, 13842–13852. doi:10.1039/C3TA12805A
  14. Combination of in situ straining and ACOM TEM: A novel method for analysis of plastic deformation of nanocrystalline metals.
    Kobler, A.; Kashiwar, A.; Hahn, H.; Kübel, C.
    2013. Ultramicroscopy, 128, 68–81. doi:10.1016/j.ultramic.2012.12.019
  15. Deformation-induced grain growth and twinning in nanocrystalline palladium thin films.
    Kobler, A.; Lohmiller, J.; Schäfer, J.; Kerber, M.; Castrup, A.; Kashiwar, A.; Gruber, P. A.; Albe, K.; Hahn, H.; Kübel, C.
    2013. Beilstein journal of nanotechnology, 4, 554–566. doi:10.3762/bjnano.4.64
  16. In situ magnetometry studies of magnetoelectric LSMO/PZT heterostructures.
    Leufke, P. M.; Kruk, R.; Brand, R. A.; Hahn, H.
    2013. Physical Review B, 87, 094416/1–9. doi:10.1103/PhysRevB.87.094416
  17. Room temperature reversible tuning of magnetism of electrolyte-gated La₀̣₇₅Sr₀̣₂₅MnO₃ nanoparticles.
    Mishra, A. K.; Darbandi, A. J.; Leufke, P. M.; Kruk, R.; Hahn, H.
    2013. Journal of Applied Physics, 113, 033913/1–7. doi:10.1063/1.4778918
  18. High speed, low-voltage, and environmentally stable operation of electrochemically gated zinc oxide nanowire field-effect transistors.
    Nasr, B.; Wang, D.; Kruk, R.; Rösner, H.; Hahn, H.; Dasgupta, S.
    2013. Advanced functional materials, 23, 1750–1758. doi:10.1002/adfm.201202500
  19. A facile synthesis of a carbon-encapsulated Fe₃O₄ nanocomposite and its performance as anode in lithium-ion batteries.
    Prakash, R.; Fanselau, K.; Ren, S.; Mandal, T. K.; Kübel, C.; Hahn, H.; Fichtner, M.
    2013. Beilstein journal of nanotechnology, 4, 699–704. doi:10.3762/bjnano.4.79
  20. CFx derived carbon-FeF₂ nanocomposites for reversible lithium storage.
    Reddy, M. A.; Breitung, B.; Chakravadhanula, V. S. K.; Wall, C.; Engel, M.; Kübel, C.; Powell, A. K.; Hahn, H.; Fichtner, M.
    2013. Advanced energy materials, 3, 308–313. doi:10.1002/aenm.201200788
  21. Suppressed lithiumm dendrite growth in lithium batteries using ionic liquid electrolytes: Investigation by electrochemical impedance spectroscopy, scanning electron microscopy, and in situ ⁷Li nuclear magnetic resonance spectroscopy.
    Schweikert, N.; Hofmann, A.; Schulz, M.; Scheuermann, M.; Boles, S. T.; Hanemann, T.; Hahn, H.; Indris, S.
    2013. Journal of Power Sources, 228, 237–243. doi:10.1016/j.jpowsour.2012.11.124
  22. High density of shear bands and enhanced free volume induced in Zr₇₀Cu₂₀Ni₁₀ metallic glass by high-energy ball milling.
    Shao, H.; Xu, Y.; Shi, B.; Yu, C.; Hahn, H.; Gleiter, H.; Li, J.
    2013. Journal of Alloys and Compounds, 548, 77–81. doi:10.1016/j.jallcom.2012.08.132
  23. Evidence for enhanced ferromagnetism in an iron-based nanoglass.
    Witte, R.; Feng, T.; Fang, J. X.; Fischer, A.; Ghafari, M.; Kruk, R.; Brand, R. A.; Wang, D.; Hahn, H.; Gleiter, H.
    2013. Applied physics letters, 103, 073106/1–5. doi:10.1063/1.4818493
  24. Ge-Cu nanoparticles produced by inert gas condensation and their application as anode material for lithium ion batteries.
    Zhao, X.; Wang, C.; Wang, D.; Hahn, H.; Fichtner, M.
    2013. Electrochemistry communications, 35, 116–119. doi:10.1016/j.elecom.2013.08.016