Presentation is loading. Please wait.

Presentation is loading. Please wait.

Carbon Nanotube Intramolecular Junctions. Nanotubes A graphene sheet with a hexagonal lattice…

Published byClinton Ford Modified over 8 years ago

Similar presentations

Presentation on theme: "Carbon Nanotube Intramolecular Junctions. Nanotubes A graphene sheet with a hexagonal lattice…"— Presentation transcript:

1 Carbon Nanotube Intramolecular Junctions

2 Nanotubes A graphene sheet with a hexagonal lattice…

3 Nanotubes …wrapped up into a cylinder

4 Structure The structure of a nanotube is characterized by: Diameter (1-2 nm) Chirality

5 Structure Diameter and chirality are characterized by the vector c h =na 1 +ma 2 = (n,m) a 1 and a 2 are the graphene lattice vectors n and m are integers

6 Structure Armchair (n,n) Zig-zag (n,0) Chiral (n,m)

7 Structure Armchair (n,n) Zig-zag (n,0) Chiral (n,m)

8 Structure Armchair (n,n) Zig-zag (n,0) Chiral (n,m)

9 Structure Singlewall (SWNT) Multiwall (MWNT)

10 Structure Singlewall (SWNT) Multiwall (MWNT)

11 Electronic properties Nanotubes can be: Metallic (n-m a multiple of 3) Semiconducting depending on their diameter and chirality

12 Nanotube heterojunctions Nanotubes can be used to realize functional devices on individual molecules, for example to create intra-molecular junctions Metal-Metal Metal-Semiconductor Semiconductor-Semiconductor

13 What is an heterostructure? It is a structure that contains an heterojunction in order to build quantum structures like tunnel barrier and quantum wells. In an heterostructure : The interface IS the device

14 Nanotube heterojunctions It consists in: a change in the chirality within a single nanotube It can be obtained by: Local mechanical deformation A pentagon-heptagon (5-7) topological defect pair

15 Nanotube heterojunctions The insertion of a (5-7) topological defect pair creates a kink. In order to generate a kink of a large angle this pair must be placed on opposite sides of the kink.

16 Nanotube heterojunctions They obtained nanotubes that contain: A single kink of 36° (M-S heterojunction) A single kink of 41° (M-M heterojunction)

17 (M-S) Nanotube heterojunction The nanotube is lying on 3 electrodes. The upper straight segment has a resistance of 110 kΏ with no gate- voltage dependence (it is metallic)

18 (M-S) Nanotube heterojunction The lower straight segment is a semiconductor.

19 (M-S) Nanotube heterojunction This is the I-V characteristic across the kink: nonlinear and asymmetric resembling that of a diode

20 (M-S) Nanotube heterojunction The strong gate modulation demonstrates that the lower nanotube segment is semiconducting.

21 (M-M) Nanotube heterojunction The nanotube is lying on 4 electrodes. At room temperature R upper = 56kΏ R lower =101kΏ R junction =608kΏ

22 (M-M) Nanotube heterojunction Conductances depend on temperature There is no gate-voltage dependence, demonstrating that both are metallic The conductance across the junction is much more temperature dependent then that of the 2 straight segments

23 (M-M) Nanotube heterojunction The data are plotted on a double- logarithmic scale. The data can be fitted with a power- law function (if eV<<k B T)

24 (M-M) Nanotube heterojunction Power-law behaviour of G versus T was interpreted as a signature for electron-electron correlation. The nanotube behaves as a Luttinger liquid

25 Luttinger liquid An LL is a one-dimensional correlated electron state characterized by a parameter g that measures the strength of the interaction between electrons. g<<1 for strong repulsive interactions g=1 for non-interacting electron gas In SWNTs g theory ≈ 0.28. The tunnelling amplitude vanishes as a power-law function of energy:

26 Luttinger liquid Tunnelling into the end of an LL is more strongly suppressed than into the bulk α end > α bulk α end = (g -1 -1)/4 α bulk = (g -1 +g-2)/8 When a tunnel junction is placed between 2 LLs the tunnelling conductance is : α end-end = 2 α end

27 (M-M) Nanotube heterojunction At large bias (eV>>k B T)

28 (M-M) Nanotube heterojunction If we scale dI/dV by T α and V by T the curves obtained at different temperatures collapse onto one universal curve

29 Conclusions SWNTs are promising candidates for obtaining individual molecules as functional devices using their particular electronic properties.

30 Future development A better process of fabrication of SWNTs and their junctions is necessary. These junctions could be the building blocks of nanoscale electronic devices made entirerly of carbon.

Download ppt "Carbon Nanotube Intramolecular Junctions. Nanotubes A graphene sheet with a hexagonal lattice…"

Similar presentations

Mechanisms of Terahertz Radiation Generation in Graphene Structures Institute for Nuclear Problems, Belarus State University, Belarus The XII-th International.

Mechanisms of Terahertz Radiation Generation in Graphene Structures Institute for Nuclear Problems, Belarus State University, Belarus The XII-th International.
Forms of Carbon. Diamond Covalent crystals: C, Si, Ge, SiC Strong sp 3  bonds form tetrahedral structure Face Centered Cubic lattice (fcc) –8 C atoms.

Forms of Carbon. Diamond Covalent crystals: C, Si, Ge, SiC Strong sp 3  bonds form tetrahedral structure Face Centered Cubic lattice (fcc) –8 C atoms.
Topical lecture: Quantum Size Effects in Nanostructures A. Tavkhelidze Ilia State University.

Topical lecture: Quantum Size Effects in Nanostructures A. Tavkhelidze Ilia State University.
Signatures of Tomonaga-Luttinger liquid behavior in shot noise of a carbon nanotube Patrik Recher, Na Young Kim, and Yoshihisa Yamamoto Institute of Industrial.

Signatures of Tomonaga-Luttinger liquid behavior in shot noise of a carbon nanotube Patrik Recher, Na Young Kim, and Yoshihisa Yamamoto Institute of Industrial.
The Energetics of the Hydrogenation of a Single- Walled Carbon Nanotube Janet Ryu Professor Nicola Marzari May 10, 2005 3.021J.

The Energetics of the Hydrogenation of a Single- Walled Carbon Nanotube Janet Ryu Professor Nicola Marzari May 10, J.
Electrical Techniques MSN506 notes. Electrical characterization Electronic properties of materials are closely related to the structure of the material.

Electrical Techniques MSN506 notes. Electrical characterization Electronic properties of materials are closely related to the structure of the material.
Roadmap of Microelectronic Industry. Scaling of MOSFET Reduction of channel length L  L/α Integration density  α 2 Speed  α; Power/device  1/α 2 Power.

Roadmap of Microelectronic Industry. Scaling of MOSFET Reduction of channel length L  L/α Integration density  α 2 Speed  α; Power/device  1/α 2 Power.
Utilizing Carbon Nanotubes to Improve Efficiency of Organic Solar Cells ENMA 490 Spring 2006.

Utilizing Carbon Nanotubes to Improve Efficiency of Organic Solar Cells ENMA 490 Spring 2006.
CNT – Characteristics and Applications

CNT – Characteristics and Applications
Department of Aeronautics and Astronautics NCKU Nano and MEMS Technology LAB. 1 Chapter IV June 14, 2015June 14, 2015June 14, 2015 P-n Junction.

Department of Aeronautics and Astronautics NCKU Nano and MEMS Technology LAB. 1 Chapter IV June 14, 2015June 14, 2015June 14, 2015 P-n Junction.
University of Notre Dame Carbon Nanotubes Introduction Applications Growth Techniques Growth MechanismPresented by: Shishir Rai.

University of Notre Dame Carbon Nanotubes Introduction Applications Growth Techniques Growth MechanismPresented by: Shishir Rai.
Colin Mann, Physics Professor Philip Collins ABSTRACT The use of carbon nanotube field-effect transistors (CNTFETs) as chemical or biological sensors is.

Colin Mann, Physics Professor Philip Collins ABSTRACT The use of carbon nanotube field-effect transistors (CNTFETs) as chemical or biological sensors is.
Interconnect Focus Center e¯e¯ e¯e¯ e¯e¯ e¯e¯ SEMICONDUCTOR SUPPLIERS Goal: Fabricate and perform electrical tests on various interconnected networks of.

Interconnect Focus Center e¯e¯ e¯e¯ e¯e¯ e¯e¯ SEMICONDUCTOR SUPPLIERS Goal: Fabricate and perform electrical tests on various interconnected networks of.
Origin of Coulomb Blockade Oscillations in Single-Electron Transistors

Origin of Coulomb Blockade Oscillations in Single-Electron Transistors
1 Synthesis of Carbon nanotubes by Chemical Vapor Deposition Amit Khosla Mechanical Engineering University of Colorado Advisor: Prof. Roop. L. Mahajan.

1 Synthesis of Carbon nanotubes by Chemical Vapor Deposition Amit Khosla Mechanical Engineering University of Colorado Advisor: Prof. Roop. L. Mahajan.
PY4007 – Quantum wires nanoparticle V1V1 V2V2 0 V C,R 1 C,R 2 C,R 3 A small conductive nanoparticle is connected via 3 tunnelling junctions to voltage.

PY4007 – Quantum wires nanoparticle V1V1 V2V2 0 V C,R 1 C,R 2 C,R 3 A small conductive nanoparticle is connected via 3 tunnelling junctions to voltage.
Defects and metallic contacts involving carbon nanotubes Jisoon Ihm School of Physics, Seoul National University, Korea.

Defects and metallic contacts involving carbon nanotubes Jisoon Ihm School of Physics, Seoul National University, Korea.
CARBON NANOTUBES MAHESH.

CARBON NANOTUBES MAHESH.
A New Understanding of the Tunneling Conductance Anomaly in Multi-Wall Carbon Nanotubes This work was motivated by a recent experiment which reports subtle.

A New Understanding of the Tunneling Conductance Anomaly in Multi-Wall Carbon Nanotubes This work was motivated by a recent experiment which reports subtle.
Institute of Optics, University of Rochester1 Carbon Nanotubes: theory and applications Yijing Fu 1, Qing Yu 2 1 Institute of Optics, University of Rochester.

Institute of Optics, University of Rochester1 Carbon Nanotubes: theory and applications Yijing Fu 1, Qing Yu 2 1 Institute of Optics, University of Rochester.

Similar presentations

Ads by Google