Presentation is loading. Please wait.

Presentation is loading. Please wait.

Crystal Growth of III/V Semiconductor Nanowires Kobi Greenberg.

Published byAlexis Washington Modified over 8 years ago

Similar presentations

Presentation on theme: "Crystal Growth of III/V Semiconductor Nanowires Kobi Greenberg."— Presentation transcript:

1 Crystal Growth of III/V Semiconductor Nanowires Kobi Greenberg

2 Metal organic molecular beam epitaxy (MOMBE)

3 Future applications of nanowires Martensson et al Nanowire LED Maarten et al Single photon emitter Algra et al Crystal structure engineering Nanowires as a Biological Interface Mårtensson et al

4 The vapor liquid solid growth mechanism TMI 420 o C In P2P2 Au catalyst InP

5 TEM pictures of InP nanowires grown in our lab by the vapor liquid solid method ZB WZ Au InP

6 Two ways to arrange cannon balls Cubic structure Hexagonal structure

7 Stacking fault formation A B C A B C A B A B A B Zincblende nanowireWurzite nanowire With stacking fault A B C B A B SF

8 Limitations of the vapor liquid solid method Difficult to eliminate stacking fault Very sensitive to wafer surface effects Calahorra, Greenberg et al. nanotechnology 2012 TMI 420 o C In P2P2 Au catalyst InP

9 The selective area vapor liquid solid growth method Si 3 N 4 Dalacu et al, Nanotechnology 2009 Au catalyst TMI 420 o C P2P2

10 TEM pictures of InP nanowires grown in our lab by selective area vapor liquid solid method: no stacking faults

11 Advantages of the selective area vapor liquid solid method Easy to eliminate stacking fault in InP nanowires not sensitive to wafer surface effects Predictable growth rate Si 3 N 4 Au catalyst TMI 420 o C P2P2

12 Fabrication Wafer cleaning Si 3 N 4 deposition Electron sensitive resist coating Electron beam lithography + development+ BOE InP B substrate

13 Gold evaporation Lift off

14 nanowire heterostuctures: important for device applications conventional layers of materials having different lattice constant cannot be grown on top of each other as single crystals. Due to their small dimensions, a stack of materials with different lattice constants can be grown as a single crystal GaP InGaP

15 Heterostructure analysis by EDX and STEM HAADF 1 2 3 12 3 3

16 Summary Selective area vapor liquid solid is the method of choice for defect free nanowire growth. Heterostructures of InP and GaP having 7.7% lattice mismatch were demonstrated. Method will be implemented for other materials such as GaAs, GaP,InAs and their heterostuctures.

17

Download ppt "Crystal Growth of III/V Semiconductor Nanowires Kobi Greenberg."

Similar presentations

On trying daring ideas with Herb. P.M.Petroff Professor Emeritus Materials Department, University of California, Santa Barbara.

" On trying daring ideas with Herb". P.M.Petroff Professor Emeritus Materials Department, University of California, Santa Barbara.
Silicon Wafer in Production: Type and Specification By Assoc. Prof. Dr. Uda Hashim School of Microelectronic Engineering.

Silicon Wafer in Production: Type and Specification By Assoc. Prof. Dr. Uda Hashim School of Microelectronic Engineering.
Quasi-vdW epitaxy of GaAs on Si Darshana Wickramaratne 1, Y. Alaskar 2,3, S. Arafin 2, A. G. Norman 4, Jin Zou 5, Z. Zhang 5, K.L Wang 2, R. K. Lake 1.

Quasi-vdW epitaxy of GaAs on Si Darshana Wickramaratne 1, Y. Alaskar 2,3, S. Arafin 2, A. G. Norman 4, Jin Zou 5, Z. Zhang 5, K.L Wang 2, R. K. Lake 1.
Ch.1 Introduction Optoelectronic devices: - devices deal with interaction of electronic and optical processes Solid-state physics: - study of solids, through.

Ch.1 Introduction Optoelectronic devices: - devices deal with interaction of electronic and optical processes Solid-state physics: - study of solids, through.
Silicon Nanowire based Solar Cells

Silicon Nanowire based Solar Cells
Another “Periodic” Table!. Growth Techniques Ch. 1, Sect. 2, YC Czochralski Method (LEC) (Bulk Crystals) –Dash Technique –Bridgeman Method Chemical Vapor.

Another “Periodic” Table!. Growth Techniques Ch. 1, Sect. 2, YC Czochralski Method (LEC) (Bulk Crystals) –Dash Technique –Bridgeman Method Chemical Vapor.
Introduction SiC substrate Process Expitaxial graphene on Si – face Expitaxial graphene on C – face Summary Graphene synthesis on SiC.

Introduction SiC substrate Process Expitaxial graphene on Si – face Expitaxial graphene on C – face Summary Graphene synthesis on SiC.
Heraklion, 2014 Si/SiC Nanowire Growth by using Al Catalyst Linsheng Liu.

Heraklion, 2014 Si/SiC Nanowire Growth by using Al Catalyst Linsheng Liu.
Overview of Nanofabrication Techniques Experimental Methods Club Monday, July 7, 2014 Evan Miyazono.

Overview of Nanofabrication Techniques Experimental Methods Club Monday, July 7, 2014 Evan Miyazono.
Chapter 1 The Crystal Structure of Solids Describe three classifications of solids— amorphous, polycrystalline, and single crystal. Discuss the concept.

Chapter 1 The Crystal Structure of Solids Describe three classifications of solids— amorphous, polycrystalline, and single crystal. Discuss the concept.
Microelectronics & Device Fabrication. Vacuum Tube Devices Thermionic valve Two (di) Electrodes (ode)

Microelectronics & Device Fabrication. Vacuum Tube Devices Thermionic valve Two (di) Electrodes (ode)
INTEGRATED CIRCUITS Dr. Esam Yosry Lec. #5.

INTEGRATED CIRCUITS Dr. Esam Yosry Lec. #5.
By: Garett henriksen 5/4/2015

By: Garett henriksen 5/4/2015
Thin Film Deposition Prof. Dr. Ir. Djoko Hartanto MSc

Thin Film Deposition Prof. Dr. Ir. Djoko Hartanto MSc
J. H. Woo, Department of Electrical & Computer Engineering Texas A&M University GEOMETRIC RELIEF OF STRAINED GaAs ON NANO-SCALE GROWTH AREA.

J. H. Woo, Department of Electrical & Computer Engineering Texas A&M University GEOMETRIC RELIEF OF STRAINED GaAs ON NANO-SCALE GROWTH AREA.
High Brightness Light Emitting Diodes Chapter 1 Chapter 2 屠嫚琳.

High Brightness Light Emitting Diodes Chapter 1 Chapter 2 屠嫚琳.
MSE-630 Gallium Arsenide Semiconductors. MSE-630 Overview Compound Semiconductor Materials Interest in GaAs Physical Properties Processing Methods Applications.

MSE-630 Gallium Arsenide Semiconductors. MSE-630 Overview Compound Semiconductor Materials Interest in GaAs Physical Properties Processing Methods Applications.
Optical properties and carrier dynamics of self-assembled GaN/AlGaN quantum dots Ashida lab. Nawaki Yohei Nanotechnology 17 (2006) 2609-2613.

Optical properties and carrier dynamics of self-assembled GaN/AlGaN quantum dots Ashida lab. Nawaki Yohei Nanotechnology 17 (2006)
High Brightness Light Emitting Diodes Chapter 3 Chapter 4 Reporter :楊勝州.

High Brightness Light Emitting Diodes Chapter 3 Chapter 4 Reporter :楊勝州.
Kansas State University III-Nitride Deep Ultraviolet Photonic Materials and Structures Jingyu Lin & Hongxing Jiang DMR-0504601 Growth of III-nitride Photonic.

Kansas State University III-Nitride Deep Ultraviolet Photonic Materials and Structures Jingyu Lin & Hongxing Jiang DMR Growth of III-nitride Photonic.

Similar presentations

Ads by Google