1 Nanotechnology Versatile Bottom-up Nanofabrication Technique: Layer-by-Layer Assembly ~ Anuja Choubey 12-01-2007.

Slides:

Advertisements

Similar presentations

(and briefly, Electrodeposition)

Advertisements

Babes-Bolyai University Molecular Spectroscopy Group

Numerical Modeling of Polyelectrolyte Adsorption and Layer-by-Layer Assembly Department of Chemical & Biological Engineering and School of Biomedical Engineering.

Nano Fabrication Nano Fabrication.

Capsules for Drug Delivery Stepwise Adsorption of Polyelectrolyte Molecules on Dissolvable Templates Final Product: The Polyeelctrolyte Capsule Removal.

Part 4ii: Dip Pen Nanolithography (DPN) After completing PART 4i of this course you should have an understanding of, and be able to demonstrate, the.

Nanotechnology Program Focuses on -> design, fabricating and controlling materials, components and machinery with dimensions on the nanoscale (0.1 – 100.

Surface Plasmon Resonance: antigen-antibody interactions Vamsi K. Mudhivarthi.

Nanodevices and nanostructures: quantum wires and quantum dots ECE 423 Final Project Wan-Ching Hung Dec 12,2006.

Nanoimprint II. NIL Technology sells stamps for nanoimprint lithography (NIL) and provides imprint services. Stamps made in Siliocn, Quartz, and Nickel.

Nanoscience at UMCP. Department of Chemistry and Biochemistry Faculty: Jeff Davis, Bryan Eichhorn, Doug English, Lyle Isaacs, Jason Kahn, Janice Reutt-Robey,

TOPICS IN (NANO) BIOTECHNOLOGY Self-assembly 19th January, 2007.

INTRODUCTION TO NANOTECHNOLOGY EEE5425 Introduction to Nanotechnology1.

An Introduction to Dip-Pen Nanolithography. What is DPN? Direct-write patterning technique based on AFM scanning probe technology Direct-write patterning.

Instructor: Dr. Marinella Sandros 1 Nanochemistry NAN 601 Lecture 20: LBL Assembly.

1.10 Learning from Biominerals–Form is Function

Nanofabrication: Self Assembly

Projects in the research area Hybrid bionanosystems based on self-assembled structures, quantum dots, plasmonic and magnetic nanoparticles Strategic Line.

Complex Materials Group Peter F. Green Department of Chemical Engineering and Texas Materials Institute The University of Texas at Austin.

SUPRAMOLECULAR PHOTONICS. Absorbance of light ( nm) by substance.

Nanofabrication Using Viral Biotemplates for MEMS Applications NSF Grant Konstantinos Gerasopoulos, Ekaterina A. Pomerantseva, Xiaozhu Fan, Adam.

NANOTECHNOLOGY FOR NUCLEAR NON-PROLIFERATION APPLICATIONS

Science and Technology of Nano Materials

Bionanomaterials – A Future Material Technology by Lohith T G.

Nanophotonics Prof. Albert Polman Center for Nanophotonics FOM-Institute AMOLF, Amsterdam Debye Institute, Utrecht University.

Mol Integrated Phys & Dev Lab. 1/22 OLC 2011 How Optics Plays a Role in Soft Matters ? ( Colloids and Lipids ) Sin-Doo Lee School of Electrical Engineering.

Department of Chemistry A state-of-the-art instrumental park is available to purify and characterize the synthesized molecules The research activities.

Chapter 4 Introduction to Nanochemistry. 2 Chapter 4 Periodicity of the Elements Chemical Bonding Intermolecular Forces Nanoscale Structures Practical.

Synthesis of metallic Ag and semiconducting ZnS nanoparticles in self-assembled polyelectrolyte templates M.Logar, B.Jančar and D.Suvorov Institute Jožef.

Basic Nanotechnology EHS Awareness Basics of Chemical and Material Properties—Role of Scale Basics of Chemical and Material Properties—Role of Scale Chemical.

Welcome to NANO 52.

Department of Chemistry Seminar Announcement Date/Time/VenueTitle/Speaker 30 Mar (Wed) 11am – S8 Level 3 Executive Classroom Molecular chemistry.

L OUISIANA T ECH U NIVERSITY College of Engineering and Science Encapsulated silica colloidal particles using layer by-layer electrostatic self-assembly.

Argonne National Laboratory is managed by The University of Chicago for the U.S. Department of Energy Nanofabrication H. Hau Wang Argonne National Laboratory.

Techniques for Synthesis of Nano-materials

Layer-by-Layer Assembly of Gold Nanoparticles into Monolayers Daniel Witter Chemical Engineering U of A.

TOPICS IN (NANO) BIOTECHNOLOGY Self-assembly 10th June 2003.

Copyright 2004 Integrated Nano-Technologies little solutions for big problems Integrated Nano-Technologies.

Three Dimensional Photonic Crystals Corey Ulmer. Outline What are Photonic Crystals/Why Important? How They Work Manufacturing Challenges Manufacturing.

Laboratory of Molecular Simulations of Nano- and Bio-Materials Venkat Ganesan “Where molecules and models meet applications” Computations Fluid Mechanics.

Reminders for this week Homework #4 Due Wednesday (5/20) Lithography Lab Due Thursday (5/21) Quiz #3 on Thursday (5/21) – In Classroom –Covers Lithography,

Hollow Gold Nanoparticles Are Very Sensitive Sensors Mostafa A. El-Sayed, Georgia Tech Research Corporation, DMR Sensing of biological materials,

NANO 101 Introduction to Nanotechnology

E-beam Size-Dependent Self- Assembly Protein Array.

1 Carbon Nanotube In Biology Lawanya Raj Ojha Graduate Student Department of Chemistry, OSU, Stillwater.

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.

Research And Education - Increasing Student Participation In Research At Internationally Recognized User Facilities Tabbetha Dobbins, Louisiana Tech University.

Motivation To date, nanosized objects, such as nanospheres, nanowires, nanotubes or nanobelts have been prepared from various materials, such as metals,

Grambling State University Layer by Layer Nanoarchitectures Assembled from Alumina (Al 2 O 3 ) and Zirconia (ZrO 2 ) Systems Kristan R. Moore 1, 2, Tabbetha.

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

Shadow Nanosphere Lithography Peter J. Shin Department of Bioengineering.

Summer School in NCSR Demokritos Summer 2005 Methods in micro – nano technology and nanobiotechnology Organizer: National Center for Scientific Research.

Neethu Xavier St. Alberts College Cochin, India Microcantilever Biosensors: Making Sensors Reliable.

Presenter: Kai Cao Supervisor: Prof. Xiaosong Wang Department: Chemistry Synthesis and Self-Assembly of Main-Chain Metal Carbonyl Organometallic Macromolecules.

Evaluation itemsPoints/10 Relevance to topics Clearness of introduction Background and theory Delivery of knowledge Presentation materials and handout.

Microcontact Printing (Stamping) Andrew van Bommel February 7 th, 2006.

Nanophotonics Prof. Albert Polman Center for Nanophotonics

Vassiliki Tsukala, Dimitris Kouzoudis

Lecture 6 Fundamentals of Multiscale Fabrication

Immobilization Of Biomolecules On Biosensors

Robert Vittoe1, Yici Jing2, Sejal Vagal3, and Mark Canner4

Preparation of Surface for Biomolecule Immobilization

BIO-NANOTECHNOLOGY Size: 1mm x 1mm x 5mm

4-year PhD in Nanoscience

The Gruner Lab More Projects on the Other Side

Debasish Kuila, Ph.D. Professor and Chair of Chemistry

Our group is currently studying organic photovoltaics

By JERLIN G. Research Scholar, Department of Physics.

Biosensors and BioMEMS Lecturer : Dr Nashrul Fazli Mohd Nasir

Design and fabrication of a wafer-scale organic printed photonic chip

Presentation transcript:

1 Nanotechnology Versatile Bottom-up Nanofabrication Technique: Layer-by-Layer Assembly ~ Anuja Choubey

2 Introduction “Top-down”  Photon based Nanolithography  Electron Beam Lithography  Focused Ion Beam Lithography “Bottom-up”  Self Assembled Monolayers (SAMs)  Block Copolymers  Electrostatic Self-Assembly Layer-by-Layer Assembly (LBL) Nanofabrication Techniques

3 Background Langmuir-Blodgett (LB)  Expensive instrumentation  Not applicable for non-amphiphilic materials Self assembled Monolayer (SAM)  Not suitable for multilayer fabrication Layer-by-Layer Assembly (LBL)  Inexpensive  Simple, Easy-to-use  Enhanced modularity  Potential for greater versatility

4 How LBL works? Ariga et al., Phys. Chem. Chem. Phys., 9 (2319–2340), 2007

5 Materials Used Polyions- PAH, PDDA, PSS, PVS, PAA, PPV Proteins, DNA, Charged polysaccharides Charged inorganic substances  Colloidal nanoparticles  Clay  Nanosheets  Modified zeolite crystals. Charged supramolecular assemblies  Bolaamphiphile monolayers  Lipid bilayers  LB films  Stacked dye molecules

6 Characterization Microscopy  AFM  TEM  SEM Optical Spectroscopy Ellipsometry Quartz Crystal Microbalance (QCM)

7 Ellipsometry A. Tronin et al., Colloid Polym. Sci., 272, 1317, 1994 Quartz Crystal Microbalance

8 Applications Anti-static coating for plastics Sensors  Oxygen sensor  Glucose biosensor Light emitting diode Fuel Cells Polymer Capsules  Micro-reactors  Targeted Drug delivery

9 Fuel Cell Application

10 Formation of Polymer Capsules E.Donath et al., Angew. Chem. Int. Ed. 37, 16( ),

11 Limitations Fuzzy internal architecture Sensitive to working conditions  Humidity  Drying between cycles Future Work Synergy with other techniques  Top-down microfabrication

12 Questions?