Powering Small Devices

Slides:

Advertisements

Similar presentations

PHYSICS UNIT 8: MAGNETISM

Advertisements

P3 Revision. How do forces have a turning effect? The turning effect of a force is called the moment. Distance from force to pivot – perpendicular to.

Midterm and course website 1)Midterm: Friday, Oct 12, 2007 Please mark your calendar!! 2) Physics 100 Home Page

V B EE ???? + -  V>0 Hall Effect h. v B EE >0 + -  V>0 v B EE ???? + -  V

Physics 121: Electricity & Magnetism – Lecture 3 Electric Field

November 14, 2005EEBE 512/ENEL Dr. KE Jones Lecture 22: Chapter 4: Surface Characterization in Biomaterials and Tissue Engineering Really just a.

Warm-Up: February 17, 2015 Write down a definition for equilibrium.

A PREVIEW OF CALCULUS SECTION 2.1. WHAT IS CALCULUS? The mathematics of change.  Velocities  Accelerations  Tangent lines  Slopes  Areas  Volumes.

Current, Resistance, and Simple Circuits.  A capacitor is a device used to store electrical energy.  There are two different ways to arrange circuit.

Unit 3, Day 4: Microscopic View of Electric Current Current Density Drift Velocity Speed of an Electron in as Wire Electric Field inside a Current Carrying.

Electricity and Magnetism

Electromagnetic Induction

Usually a diluted salt solution chemical decomposition

Thermoelectricity of Semiconductors

Electrical Fundamentals Parts Technician First Period Material Identification and Calculations e.

Ohm’s Law + - R E I E = I * R I = E / R R = E / I E = Voltage I = Current R = Resistance.

Current and Resistance February 22, 2006 Notes New topic today – Current and Resistance New topic today – Current and Resistance Exam – Friday – March.

Final Control Chapter 7.

Chapter 29 Magnetism Ferromagnetism

Chapter 26 Magnetism Poles – Location where the magnetic effect is the strongest –North pole – pole of a freely suspended magnet which points towards geographic.

1 Electric Field. 2 Chapter Objectives know the definition of, and basic uses for, the electric field. be able to sketch electric field lines. know how.

Principles of Technology Waxahachie High School Ratein Fluid Systems PIC Chapter 3.2 Ratein Fluid Systems PIC Chapter 3.2 PT TEKS.

Two-Dimensional Motion and VectorsSection 1 Preview Section 1 Introduction to VectorsIntroduction to Vectors.

© Pearson & GNU Su-Jin Kim MEMS Manufacturing Processes MEMS Devices The MEMS(Microelectromechanical systems) devices can be made through the IC Process:

EKT 451/4 SEM 2 Chapter 6 SENSOR & TRANSDUCER SHAIFUL NIZAM MOHYAR

Chapter 1 The Atmosphere Section 3 Air Pressure. Properties of Matter (Stuff) Mass, Volume, Density, and Pressure All of the matter in the universe has.

Chapter 9 Forces and Buoyancy. Force An influence that causes an object to undergo a change in motion Generally a push or a pull.

Confined Carriers DRAGICA VASILESKA PROFESSOR ARIZONA STATE UNIVERSITY.

Current Electricity Parallel CircuitSeries Circuit.

Andrew Cardes 2/21/07 A presentation of …. ATTRIBUTES POSSIBLE APPLICATIONS  Ultra-fast  Fatigue-free  Low friction  Varying resistance with telescoping.

Magnetism and its applications.

Powering the nanoworld: DNA-based molecular motors Bernard Yurke A. J. Turberfield University of Oxford J. C. Mitchell University of Oxford A. P. Mills.

States of MatterSection 3 Pressure 〉 Fluids exert pressure evenly in all directions. –pressure: the amount of force exerted per unit area of a surface.

Current and Resistance

A positive test charge is used by convention to identify the properties of an electric field. The vector arrow points in the direction of the force that.

Electrostatics #5 Capacitance. Capacitance I. Define capacitance and a capacitor: Capacitance is defined as the ability of an object to store charge.

Air Pressure. Does Air Have Mass?  Air consists of atoms and molecules, which have mass.  Because air has mass, it also has other properties, including.

Chapter 27: Current and Resistance Fig 27-CO, p Electric Current 27.2 Resistance and Ohm’s Law 27.4 Resistance and Temperature 27.6 Electrical.

Magnetism Unit 12. Magnets Magnet – a material in which the spinning electrons of its atom are aligned with one another Magnet – a material in which the.

Garage Door Design Analysis

SubtopicLearning objectives Before After Length and time Use and describe the use of rules and measuring cylinders to calculate a length or a volume Use.

Best 3 Applications Involving in Zener Diode Working Functionality.

Numeracy in Science – Rearranging equations and formulae Equations and formulae are used in Physics, Chemistry and Biology. Sometimes you will need to.

The rate of change of velocity.

Announcements final exam average (excluding regrades): 74.6%

Unit 40: Engines and motors Dr

HYDRAULICS & PNEUMATICS

Current Electricity and Elastic Properties

Resistors in series and in parallel (review)

Date of download: 10/25/2017 Copyright © ASME. All rights reserved.

EE 315/ECE 451 Nanoelectronics I

Unit 40: Engines and motors Dr

Basic principles of hydraulic symbols

SHAPER MACHINE SHAPER MACHINE SHAPER MACHINE.

A Rigid Mechanism With Uniform, Variable Curvature1

AP Physics C: Electricity & Magnetism – Charges & Electric Field

Current in a Magnetic Field

Chapter 27 Examples.

Worth Reading CHEM *7530/750 Olivier Nguon February, 28th 2006

Carbon Nanotube Diode Design

Chapter 17: Magnetism and Its Uses

Lesson 3 Forces and Fields

Electromagnetism Lenz’s Law.

Current Electricity and Elastic Properties

by Jungwon Park, Hans Elmlund, Peter Ercius, Jong Min Yuk, David T

Electromagnetism Lenz’s Law.

Chapter 27 Magnetism HW #6 Due Monday, April 15

Fig. 1 Schematic illustration of in situ TEM imaging of Pt nanocrystals freely rotating in a graphene liquid cell (GLC) and 3D EM density maps calculated.

X rays are electromagnetic waves of short wavelength, high frequency and high energy. They are ionising time period (s) = number of divisions x time base.

Ways to remember what unit is a length, weight or capacity….

Presentation transcript:

Powering Small Devices

Doesn’t that sound nifty?

Carbon Nanotubes as Nanoscale Mass Conveyors Carbon nanotubes: hollow cores, possible conduits for nanoscale amounts of material Indium nanoparticles on carbon nanotubes, apply current to nanotube: controllable, reversible atomic scale mass transport along carbon nanotubes, using indium metal By applying appropriate current to the carbon nanotube pictured, indium is moved from left (a) to right (b) and back again (c). B. C. Regan et al. Nature. 2004, 428, 924.

Painful Physics Numbers Points of Interest Assembly Range of Motion Painful Physics Numbers

Assembly Nanomotor is constructed and operated in TEM Indium is evapourated onto the surface of arc-grown carbon nanotubes (ex situ) Assembled using custom-built nanomanipulation stage: two MWNT are alligned in an overlapping parallel arrangement with an indium nanoparticle present near the overlap

Applying the Principle of Transport External electronics: apply voltage across the MWNT lever arm junction Electrical current through the lever arms and the junction Electrically directed indium surface diffusion: indium atoms from the atom reservoir are transported to the junction region: a single nanocrystal (ram) is grown directly between the lever arms

Range of Motion Apply current: nanocrystal grows in length, pushes MWNT lever arms apart Reversible: control voltage (upper panel) is switched sequentially between +0.9 and -0.9 V, the ram grows and shrinks Cycles with a stroke of 45 nm and a speed of 1 nm/s. Increasing the drive voltage increases rate

Conclusions Pressure exerted by the ram is calculated to be 20 bar; with ram cross-sectional area of 36 nm2, force is 2.6 nN Nanocrystal ram compares favourably with competing motor technologies for power density: With extension velocities > 1900 nm/sec, power output capability of 5 fW. Available power density is initially 8 GW/m3 The power density of an internal combustion engine is around 50 MW/m3 (calculated for a Toyota Camry 210 hp V6, where the 3L displacement has been taken as the working volume).