Plasmon Induced Electrical Conduction in Molecular Devices Parag Banerjee,† David Conklin,‡ Sanjini Nanayakkara,‡ Tae- Hong Park,§ Michael J. Therien,

Slides:

Advertisements

Similar presentations

Nanoparticle Electric Propulsion for Space Exploration Phys 483 Monday, March Team 1: Perry Young, Kiyoshi Masui, Mark Hoidas, Andrew Harris.

Advertisements

Nanotechnology. Research and technology development at the atomic, molecular or macromolecular levels, in the length scale of approximately nanometer.

Michael Grätzel, YouTube EPFL

CH. 3 Solar Cell Basic III: Principle Organic Materials for Electronics and Photonics II.

Silicon Nanowire based Solar Cells

Nanotechnology for Electronics and Sensors BIOE298dp ( )

Light and Nanotechnology : How Do we “See” Something Too Small to See?

Title Goes Here Authors go here DMR See the next slide for an example that you could use as a Template The Nugget should be 1 slide.

SURFACE PLASMON POLARITONS. SPPs Pioneering work of Ritchie (1957) Propagate along the surface of a conductor Trapped on the surface because of their.

Motivati on. Energy and Nanotechnology Gang Chen Rohsenow Heat and Mass Transfer Laboratory Mechanical Engineering Department Massachusetts Institute.

Broad-band nano-scale light propagation in plasmonic structures Shanhui Fan, G. Veronis Department of Electrical Engineering and Ginzton Laboratory Stanford.

Hybrid Nano Structure Research Lab. in Physics, Electronic Materials Research Lab in Physics,

ME381R Lecture 1 Overview of Microscale Thermal Fluid Sciences and Applications Dr. Li Shi Department of Mechanical Engineering The University of Texas.

© Imperial College London 1 Photovoltaics: Research at Imperial College Jenny Nelson Department of Physics Imperial College London Grantham Climate Change.

Electromagnetism Loop - the questions will cycle so you will see them again! 1. Caused by having more electrons than protons (negative) or more protons.

International Conference on Intelligent Computing - ICIC Zhengzhou, August 11-14, 2011 Memristors by Quantum Mechanics Thomas Prevenslik QED Radiations.

Optical Properties of Metal Nanoparticles

Picosecond needs for phonon dynamics in nanoscience / energy science Yuelin Li, X-ray Science Division, Argonne National Laboratory.

Nanoparticle Surface Characterization by X-Ray Photoelectron Spectroscopy

Previous work on CVD-grown SiNWs Single SiNW NATURE| Vol 449| 18 October Removed from the growth substrate and laid on a foreign substrate Contacts.

Engineering Spontaneous Emission in Hybrid Nanoscale Materials for Optoelectronics and Bio-photonics Arup Neogi Department of Physics and Materials Engineering.

Nanoplasmonic structures: Designing electromagnetic fields

Nanoscience and technology in six easy pieces The missing length scale One at a time It takes care of itself –defect tolerance High performance at large.

LBNL 9/15/06 Limiting factors in solar cell efficiency - how do they apply on the nano-scale ? D.G. Ast Cornell University.

Ragan Lab Self-Organization of Nanosystems Ragan Lab Self-Organization.

Nano-electronics Vision: Instrumentation and methods for analysis of atomic scale physical properties, and methods to correlate these properties with nano-electronic.

UNT Nanotech Ultrafast and Nanoscale Photonics Group Arup Neogi, Department of Physics Research Areas 1.Nanostructured Optoelectronic materials for efficient.

J-V Characteristics Optical Properties Above-11%-Efficiency Organic–Inorganic Hybrid Solar Cells with Omnidirectional Harvesting Characteristics by Employing.

1 Nanodevices, Nanoelectronics, and Nanosensors Rational You ITRI-IEK-NEMS 2001/08/01 Source: IWGN (1999/09)

Nanotechnology for Electronics and Sensors BIOE198dp ( )

Chapter 2 Properties on the Nanoscale

Top-Down Meets Bottom-Up: Dip-Pen Nanolithography and DNA-Directed Assembly of Nanoscale Electrical Circuits Student: Xu Zhang Chad A. Mirkin et al. Small.

Nanotechnology foundation & applications

Nanodots Nanocurves Nano-lithography/machining Nanogrids ~10 nm Atomic Force Microscope + Near Field Optics (Grigoroporos, UC Berkeley) Manufacturing /

Ferroelectric Nanolithography Extended to Flexible Substrates Dawn A. Bonnell, University of Pennsylvania, DMR Recent advances in materials synthesis.

Developments at the Nano/Bio Interface Point to Scientific Opportunities Developments at the Nano/Bio Interface Point to Scientific Opportunities Functional.

INFRARED PLASTIC SOLAR CELL

Metamaterials, some drawn some not. Boris Kuhlmey 10/8/12.

Formation of Ge alloy nanocrystals embedded in silica Eugene E. Haller, University of California-Berkeley, DMR Above: High-angle annular dark field.

Spring Celebration Donald Lucas, Ph.D. Profs. Cathy Koshland (PI), Lydia Sohn, Peidong Yang, and John Arnold Nanotechnology-Based Environmental.

The Next Revolution in Probes of Nanoscale Phenomena The Next Revolution in Probes of Nanoscale Phenomena Dawn Bonnell The University of Pennsylvania.

1 ADC 2003 Nano Ni dot Effect on the structure of tetrahedral amorphous carbon films Churl Seung Lee, Tae Young Kim, Kwang-Ryeol Lee, Ki Hyun Yoon* Future.

Basic Components used in Electronics. Used in electronic circuits to charge up to a given potenti al.

Nanolithography Using Bow-tie Nanoantennas Rouin Farshchi EE235 4/18/07 Sundaramurthy et. al., Nano Letters, (2006)

Manipulating the optical properties of semiconductor nanostructures for integrated plasmonic applications Dr. Ning Liu Materials & Surface Science Institute.

Presented by:- Nayanee Singh B.Tech(E.C.), 5 th sem Roll no: Banasthali University Rajasthan.

MULTIFUNCTIONAL FIBER SOLAR CELLS USING TIO 2 NANOTUBES, PbS QUANTUM DOTS, AND POLY(3-HEXYLTHIOPHENE) by Dibya Phuyal MS Electrical Engineering EE 230.

Nano Science Additional Science GCSE Chemistry. So how big are they? Really tiny particles, nanometres across are called “nanoparticles” (1nm= 0.000,000,001)

INFRARED PLASTIC SOLAR CELL.

Surfaceplasmons in solar power Enhancing Efficiency of Solar Cells and Solar Thermal Collectors with surface Plasmon Resonances in Metal Nanoparticles.

Bandgap (eV) Lattice Constant (Å) Wavelength ( ㎛ ) GaN AlN InN 6H-SiC ZnO AlP GaP AlAs.

Onoprienko N. E-71. LED or light emitting diode - a semiconductor device with a pn junction created by the optical radiation by passing electric current.

MOLETRONICS An Invisible technology Amit Dwivedi Ec 3rd Year

THINKING BIG, WORKING SMALL. 2 Opportunity The world is changing, and with change comes opportunity.

Nanowire Thermoelectrics for Energy Conversion

SUBMITTED BY AKHILA VASANTH.B S3 EC ROLLNO:8

Speaker : Won Il Park, Ph.D

Atoms and Elements.

GRAPHENE IN SOLAR CELLS

Nano for Energy Increased surface area Interface and size effects

Harnessing Surface Plasmon Subwavelength Optics in Metallic Nanostructures for Enhanced Efficiency in Thin-Film Solar Cells Sang-Hyun Oh, Department of.

Review of semiconductor physics

Entangled Photons Anneke Batenburg

Tuning Optical Properties with DNA-Linked Gold Nanodisk Stacks

Energy and Circuits Energy

“Small and Fast: femtosecond light-matter interactions at 0

TFT – Thin Film Transsistor BIPV – Built In PV.

Fig. 2 Realization of asymmetric photon transport.

PLASMONICS AND ITS APPLICATIONS BY RENJITH MATHEW ROY. From classical fountations to its modern applications

Presentation transcript:

Plasmon Induced Electrical Conduction in Molecular Devices Parag Banerjee,† David Conklin,‡ Sanjini Nanayakkara,‡ Tae- Hong Park,§ Michael J. Therien, and Dawn A. Bonnell‡,* ACS Nano on line Jan 2010

Plasmon Induced Electrical Conduction in Molecular Devices Parag Banerjee, David Conklin, Sanjini Nanayakkara, Tae-Hong Park, Michael J. Therien, and Dawn A. Bonnell Plasmonics is a new field in which surface plasmons are exploited to manipulate and control light. Here we show that surface plasmons can be configured to induce electronic transport in molecular devices and in this manner convert optical energy into electrical conduction. Hybrid nanostructures were fabricated in which 32 nm gold particles are linked with optically active porphyrin molecules. The structures are designed such that the spacing between many of the particles is exactly the length that the molecules span. The plasmons focus light to the junction and induce electrical conduction by localizing photon flux to increase exciton production in the molecule. The transport properties of the molecule, the proximity of the gold electrodes and the plasmons lead to current enhancements by factors of 4-20 (400% to 2000%) even in these unoptimized devices. These results suggest new strategies for energy efficient circuits, energy harvesting coatings, optical circuit components, and neural logic devices. Banerjee, et al ACS Nano 2010

The plasmon mediated molecular device is a tiny (invisible) object that spans a small part of the light contrast line within the circle on the chip junctions span that line.