One dimensional metal nanowire grown by physical vapor deposition
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1 DSL DÜNNSCHICHTLABOR One dimensional metal nanowire grown by physical vapor deposition Gunther Richter Max Planck Institute for Intelligent Systems (formerly MPI for Metals Research) Stuttgart, Germany MECANO Meeting, Ecole des Mines, Paris 30 th October 2012
2 Acknowledgment Universität Stuttgart/MPI für Intelligente Systeme Karla Hillerich Lisa Hofacker Matthias Kolb Matthias Schamel Carola Schopf Dominic Linsler Christian Kappel Vanessa Dörlich Friderike Baras Dominic Zug Horst P. Strunk Karlsruher Institut für Technologie Wenting Huang Andreas Sedlmeyr Reiner Mönig Oliver Kraft
3 Overview Motivation Examples in nature Artificial metal nanowhisker: - Microstructure - Growth Nucleation site Incorporation site - Mechanical properties - Composites Summary
4 Motivation 2 µm 2 µm FIB cutting top-down approach PVD growth bottom-up process for nano structuring Influence of FIB machining? Andreas Schneider
5 Overview Motivation Examples in nature Artificial metal nanowhisker: - Microstructure - Growth Nucleation site Incorporation site - Mechanical properties - Composites Summary
6 Historical Whisker: hair silver
7 Whisker 1574 AgS_Heizent.wmv Found in: Freiberg Schwarzwald Kupferberg Joachimsthal Kongsberg As long as I am talking about silver matte, I should for the sake of the eager reader tell something that is characteristic of its nature and behaviour. First: When silver matte is cast into an ingot, and while it is still hot, it can be hammered and shaped as you wish, just like lead. And further: It is possible to cats figures or coin medals from it which look like vitreous silver. When you have cast it into funny little decorative figures, lightly cut or scratch them with a knive and hold them over a gentle charcoal fire until they get hot, whereupon silver will sprout or grow out of them very delicately just as it grows in the mineral. This is amusing and very pretty to watch. I am telling this so that anybody who would like to do this for fun and play with it some more should know how it is done.
8 Old reviews
9 Whisker 1574 Vorkommen: Freiberg Schwarzwald Kupferberg Joachimsthal Kongsberg
10 Whisker 1574 Vorkommen: Freiberg Schwarzwald Kupferberg Joachimsthal Kongsberg
11 Overview Motivation Examples in nature Artificial metal nanowhisker: - Microstructure - Growth Nucleation site Incorporation site - Mechanical properties - Composites Summary
12 arteficial Whisker Substrate: Silicon wafer, Tungsten foil + 30 nm Carbon by magnetron sputtering Growth parameters: UHV ( mbar), Metal thermal evaporation, T S ~ 60% T M Cu growth: T S = 650 C 700 C, R = 0.05 nm / s Crystal morphology: needle / prismatic, diameter nm, Length < 300 µm Isometric Copper islands grown on a clean Silicon surface
13 c z a x y b Microstructure c No defects as grain boundaries or dislocations the metallic whisker are perfect single crystalline [111] [011] [101] b Copper a 1.0 nm
14 Nano-whisker tip x [111]
15 HRTEM whisker axis HRTEM investigation: e-beam axis: - no edge dislocations detectable - no screw dislocation detectable - projected side facets flat - surface oxidized - no contaminations visible on surface e-beam axis: - 6-fold symmetry - no stacking faults - misfit dislocations in Ni - no dislocations in Cu whisker - Ni/Cu core-shell structure - Ni grows epitaxial by island growth 10 nm
16 Crystal shape Shape: - Low indexed {111}, {100} facets for surface - Low energy Wulff shape dominates geometry
17 Fe Nanowhisker [100] [001] [010] Substrate: Mo foil Temperature: 800 C α-fe Surface not defined by low surface energy {110} facet
18 Overview Motivation Examples in nature Artificial metal nanowhisker: - Microstructure - Growth Nucleation site Incorporation site - Mechanical properties - Composites Summary
19 Mathematical NW lengthening model Metal flux 5 min 120 min 120 min Ruth, V & Hirth, J.P., Kinetics of diffusion-controlled whisker growth, J. Chem. Phys. 41, (1964)
20 Time [s] Substrate surface contribution Beta ,0E+00 2,0E-04 4,0E-04 6,0E-04 8,0E-04 1,0E-03 1,2E-03 1,4E-03 Whisker length [m] Whisker radius (nm) Diffusion length (µm) V l (m/s) w/d (1/m 2 ) ß X (µm) 4,4E-08 6,8E+06 10, ,3E-08 1,9E+07 57, ,2E-08 3,0E+07 0, ,0E-08 7,2E+06 9, ,8E-07 9,1E+08 0,7 33 Whisker growth: - NW growth by adatom diffusion on substrate surface - direct impingement on whisker facets - Adatom incorporation: tip or root
21 Substrate-Whisker interface Si substrate C layer Cu x Si Ni film Ni/Cu whisker Sabine Haag
22 C-Film Structuring Preferred nucleation in C holes
23 Länge [nm] Growth mechanism I Sequence of deposition steps: 30 nm C/Si(111) 10 min 680 C SEM analysis Beschichtungszeit t [min] Secondary nucleation on NW side facets island growth No lengthening deactivation of atom incorporation
24 Growth mechanism II 50 nm Au colloids deposited by spin coating Artificial nucleation site 30 nm deposition 680 C Lengthening and structure rotation Incorporation site still active
25 Growth mechanism III TEM grid Fe-Cu-nanowhisker: nm 680 C nm 680 C substrate 30 nm/si(100) Miscibility gap Formation of second phase (Fe rich) at interface Nucleation and film growth on NW surface
26 Phenomenological growth model Suitable Substrate: - Si - metal surface Nucleation site: - Colloids - Defects in non-wetting layer Metal condensation Adatom diffusion Nucleation Nuclei growth Proto-whisker formation Nucleation and layer growth on facets Thickening Adatom incorporation at interface Lengthening
27 Overview Motivation Examples in nature Artificial metal nanowhisker: - Microstructure - Growth Nucleation site Incorporation site - Mechanical properties - Composites Summary
28 cyclic in situ bending
29 shear stress (GPa) y-koordinate in m bending stress (GPa) Results 8 Bending stress: - Lower limit of strength by curvature measurement - No diameter dependence Only small dislocation free volumes are tested 2 1 graphisch bestimmt berechnet (colmpare results from Bei and Pharr) Shear stress x-koordinate in m whisker axis <110> calculation of shear stress - Close to predicted value for partial dislocation (compare talk R. Mönig) m=0.47 m= Frenkel Mckenzie diameter (nm) diameter (nm)
30 Overview Motivation Examples in nature Artificial metal nanowhisker: - Microstructure - Growth Nucleation site Incorporation site - Mechanical properties - Composites Summary
31 Advanced microstructures: Au-Ag core shell structures Intensity (a.u.) A B C 10 µm 4 µm 2 µm D E E Ag L Au M 50 nm Energy (kev)
32 Au-Ag core shell structures: Annealing A B C 10 µm 2 µm 1 µm D Measurement area and microscope type I Au Mα /I Ag Lα as deposited I Au Mα /I Ag Lα after annealing Film SEM Ag not detectable Whisker SEM Whisker TEM
33 Au(Ag)-Metallic nano-tubes [011] [100] 200 nm [011] 2 nm
34 Tube formation: Model A B C D : Substrate and Au grain boundaries : Ag : Au Ag nano-whisker growth: - Si(100) substrate - R = 0.05 nm/s, T S = 800 C - Cooling to RT
35 Tube formation: Model A B C D : Substrate and Au grain boundaries : Ag : Au Au film deposition: - T S = RT no interdiffusion - R = 0.02 nm/s cube-on-cube epitaxy on Ag whisker polycrystalline Au film on substrate, columnar grains - grain diameter ~ 100 nm
36 Tube formation: Model A B C D : Substrate and Au grain boundaries : Ag : Au Au(Ag) nano-tube formation: - T S < 300 C activation of Ag diffusion - t = 70 h D = m 2 /s L ~ Å D gb = m 2 /s L gb ~ µm - Ag depletion by surface diffusion H. Mehrer, Ed., Landolt-Börnstein New Series, Group III: Crystal and Solid State Physics, Volume 26, Diffusion in Solid Metals and Alloys (Springer-Verlag Berlin 1990)
37 Tube formation: Model A B C D : Substrate and Au grain boundaries : Ag : Au Au(Ag) nano-tube: - wall thickness < 10 nm, length ~ 15 µm - single crystalline, dislocation free, stacking faults from wall formation - attached to substrate - no Kirkendall effect but lost-wax process H. Mehrer, Ed., Landolt-Börnstein New Series, Group III: Crystal and Solid State Physics, Volume 26, Diffusion in Solid Metals and Alloys (Springer-Verlag Berlin 1990)
38 Non Metal Nanowhisker Electron beam deposition of 250 C Evaporation of Na-Cl dimers Substrate: MgO, Al 2 O 3, Ge, W Growth direction: <100> 2 nd material deposition (e.g. V) Core shell structures without Kirkendall effect
39 Summary Nanowhiskers: - Unique microstructure Wulff-shape - Root growth Arrays of nanowhiskers by tuning nucleation site - 3D-substrate Advanced composites - Unique properties Theoretical mechanical strength limit reached
40 Acknowledgment Universität Stuttgart/MPI für Intelligente Systeme Karla Hillerich Lisa Hofacker Matthias Kolb Matthias Schamel Carola Schopf Dominic Linsler Christian Kappel Vanessa Dörlich Friderike Baras Dominic Zug Horst P. Strunk Karlsruher Institut für Technologie Wenting Huang Andreas Sedlmeyr Reiner Mönig Oliver Kraft Thank you for your attention!
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