What Makes Nanoscience so Important? Nanoscience What Is It?

Slides:

Advertisements

Similar presentations

Atomic Force Microscope (AFM)

Advertisements

Metallic and Ionic Nanoparticles

Module A-2: SYNTHESIS & ASSEMBLY

AFM-Raman and Tip Enhanced Raman studies of modern nanostructures Pavel Dorozhkin, Alexey Shchekin, Victor Bykov NT-MDT Co., Build. 167, Zelenograd Moscow,

NANOTECHNOLOGY.

Spectroscopy is the study of interactions between light and matter. Photoinduced absorption spectroscopy can show us which materials (such as quantum dots)

Copyright © 2005 SRI International Introduction to Nanoscience What’s happening lately at a very, very small scale.

Nanoscale Tools Special microscopes are used to investigate atomic and molecular structures. The following pictures are just a few examples of the many.

Fundamental Sciences Electronics Energy Pharmaceutical Bio Nano Science & Technology Physics Chemistry Biology  m] MACRO ~10 o m ~10 -9 m ~10 -6 m 

Basic Imaging Modes Contact mode AFM Lateral Force Microscopy ( LFM)

STM / AFM Images Explanations from

Neat and Discrete Carbon Nanoparticles

Copyright © 2005 SRI International Scanning Probe Microscopy “Seeing” at the nanoscale.

NATSYCO. microscopy Optical microscopy Electron microscopy Scanning probe microscope.

Tools of the Nanosciences There’s plenty of room at the bottom It is my intention to offer a prize of $1,000 to the first guy who can take the information.

Definition of Nanobiochemistry 1Dr. Nikhat Siddiqi.

Copyright © 2005 SRI International The NanoSense Project Challenges and opportunities Patti Schank, Tina Stanford, Anders Rosenquist, Alyssa Wise SRI International.

Neat and Discrete Carbon Nanoparticles Carbon Chemistry.

Collaboration over the World Wide Web Using IN-VSEE’s remote SPM B.L. Ramakrishna Arizona state University August 2nd 2001.

How Can a Gecko Walk on a Ceiling?1 © 2009 McREL Physical Science Lesson 8 How Can a Gecko Walk on a Ceiling? Investigating Static Forces in Nature: The.

 Nanotechnology is the research of compounds in the range of 1 to 100 nanometers (1.0 x m to 1.0 x m).

Presentation 3: What is nano?

What Are Your Ideas About Small Sizes?1 © 2009 McREL Physical Science Lesson 3 What Are Your Ideas About Small Sizes? Investigating Static Forces in Nature:

How Do We Measure Forces at the Nanoscale Level? 1 © 2009 McREL Physical Science Lesson 7 How Do We Measure Forces at the Nanoscale Level? Investigating.

What Makes Nanoscience so Different? Nanoscience What Is It?

What Types of Forces Can Hold Objects Together? 1 © 2009 McREL Investigating Static Forces in Nature: The Mystery of the Gecko Physical Science Lesson.

What has enabled Nanoscience? Advances in Computing Power New Generation of Scientific Instruments Scanning Probe Microscopes An incomplete list.... Very.

1 NanoLeap: Nanoscale Materials and Their Properties Field Test Trials

Holly Tourtillott University of Missouri

Cover of Scientific American, October Source: Actuator driven by thermal expansion of water and air.

ABCs of Nano – a big picture of nanoscience, nanotechnology and nanoengineering Dawen Li, Shoieb Shaik, Scott Wehby June 22, 2015.

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

Nanotechnology will change the nature of almost every human-made object in the next century.

Metallic and Ionic Nanoparticles

What Do We Mean When We Speak About Surfaces in Contact? 1 © 2009 McREL Physical Science Lesson 2 What Do We Mean When We Speak About Surfaces in Contact?

Nano physics (Phys 4190) Dr. Abeer Kamal Abd El-Aziz

 Students in 11 th Grade  Chemistry Class  Low mathematical skills  Do not see science as relevant  Difficulty grasping the microscopic (atomic)

…a Dimensional Restriction Primer. The Nanoscale m = 1 Ångstrom m = 1 nanometer 1 billion nanometers in 1 meter 1 billion meters circle globe.

Introduction to Nanotechnology Module 2 Sense of Scale.

Metallic and Ionic Nanoparticles Extendable Structures: Solids.

Properties of Matter Thermodynamic Mechanical Work:

Prof. Ninad Mehendale.

ABCs of Nano – a big picture of nanoscience, nanotechnology and nanoengineering Dawen Li, Shoieb Shaik, Scott Wehby December 8, 2014.

Lesson 4 Imaging Bacteria. The organisms that have formed on the agar cubes.

India Scott.  The study of unique properties of matter at the nanoscale; an interdisciplinary field of science combining physics, materials science,

What Do We Learn When We Look More Closely? 1 © 2009 McREL Physical Science Lesson 4 What Do We Learn When We Look More Closely? Investigating Static Forces.

Applications   Semiconductors   Electric & Magnetic Devices   Carbon Nanotubes   Oxide materials   Nanoparticles and Nanocrystals   Dielectrics.

ABSTRACT  Nanotechnology, the short gun marriage of chemistry and engineering in molecular manufacturing or more simply, building things one atom or.

Imaging Molecular Structures with Atomic Force Microscopy Tyler Flanagan, Unurbat Erdenemunkh Sponsor - (Professor Michael Boyer) Abstract As part of the.

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

Nano means: o Prefix that means “one-billionth” o 10⁻⁹ o For example: nanometer (nm) is one-billionth of a meter o Red blood cell is about 6,000-10,000.

The impact of nanoscience on heterogeneous catalysis  Alexis T. Bell  From Science 2003,299,  Impact factor=27 Viewpoint.

Introduction to Nanoscience

Introduction to Nanoscience

Aniruddha Chakraborty School of Basic Sciences

Exploring Nanoscale Science and Engineering through Carbon Nanotubes

Goals for Today: Syllabus Review

Since the 1970s, the innovative development of nanoparticles is due to a combination of theory and experiments in the fields of physics chemistry materials.

National Nanotechnology Initiative (NNI) Workshop on NanoBiotechnology

Quantum corral of 48 iron atoms on copper surface

Making Science Relevant to Students Lives Teaching Module December 4, 2010 Frehiwot Gebrehiwot RET Fellow 2010 University of Illinois at Chicago.

Introduction to Nanoscience

Height difference [nm]

4-year PhD in Nanoscience

MODULE B-3: SCANNING TUNNELING MICROSCOPY

Nanoscience What Is It? What is Nanoscience? Nanoscience What is it?

Scanning Probe Microscopy

Introduction to Nanoscience

Nano Technology Dr. Raouf Mahmood. Nano Technology Dr. Raouf Mahmood.

Alan Van Orden, Department of Chemistry, Colorado State University

Presentation transcript:

What Makes Nanoscience so Important? Nanoscience What Is It?

What Makes Nanoscience so Important? © McREL incorporates many disciplines Chemistry Engineering Physics Molecular Biology Materials Science Nanoscience

What Makes Nanoscience so Important? © McREL Nanoparticle Properties size

What Makes Nanoscience so Important? © McREL Composition ShapeSize Nanoparticle properties depend on… Challenges

What Makes Nanoscience so Important? © McREL Professor David Goldhaber-Gordon, Department of Physics, Stanford University Challenges

What Makes Nanoscience so Important? © McREL AFM measures and images the topography of surface. The deflection of the cantilever is proportional to height of surface feature. sharp tip cantilever Atomic Force Microscopy

What Makes Nanoscience so Important? © McREL “Just wait—the 21st century is going to be incredible. We are about to be able to build things that work on the smallest possible length scales, atom by atom. These nanothings will revolutionize industries and our lives.” --- Richard Smalley, 1999 Nanoscience

What Makes Nanoscience so Important? © McREL Ethical Problems What happens when engineered nanoparticles are found to have unexpected negative side effects? Nanoscience

What Makes Nanoscience so Important? © McREL Ethical Problems How should we approach the privacy issues that accompany use of nanoparticle applications? Nanoscience

What Makes Nanoscience so Important? © McREL What is meant by saying that nanoscale science is interdisciplinary? 2.What are the factors that affect the properties of materials at the nanoscale? 3.How is the atomic force microscope used to image nanoparticles? 4.What properties do you think are most changed at the nanoscale? 5.How do you think nano materials are fabricated? Making Connections

What Makes Nanoscience so Important? © McREL Module Flow Chart Lesson 1.2 What Makes Nanoscience so Different? What makes Nanoscience so different? Compare Newtonian and Quantum Chemistry Regimes as they relate to nanoscale science Lesson 1.3 What Makes Nanoscience so Important? Interdisciplinary science The development of new technologies and instrumentation applications whose risk and benefits have yet to be determined Lesson 3.1 Carbon Chemistry Lesson 1.1 What is Nanoscience? What is Nanoscience? Examine and Compare size: macro, micro, sub- micro (nano) SI prefixes Lesson 2.2 Extendable Solids: Reactivity, Catalysis, Adsorption Lesson 2.3 Extendable Structures: Melting Point, Color Conductivity Lesson 3.2 Fullerenes and Nanotubes Lesson 2.1 Extendable Solids Poster Assessment Students will further investigate the essential question that they have considered throughout the module: How and why do the chemical and physical properties of nanosamples differ from those of macrosamples?