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Emerging frontiers of nanoscience and nanotechnology
T. PradeepDepartment of Chemistry and Sophisticated Analytical Instrument Facility
Indian Institute of Technology MadrasChennai 600 036, India
Phone: 91-44-2257 4208 (direct) 2257 5938/5942 (lab and students)Fax: 91-44-2257 0545/0509/4202
http://www.dstuns.iitm.ac.in/prof-pradeep-group.php
Kalpakkam February 26, 2010
Alchemy
Nano
Lavoisier
Faraday
van’t Hoff Pauling
400+ papers
Electro-magnetic rotations (1821)
Benzene (1825)
Electro-magnetic induction (1831)
The laws of electrolysis and coining words such as electrode, cathode, ion (early 1830s)
The magneto-optical effect and diamagnetism (both 1845)
Field theory of electro-magnetism
Faraday’s gold preserved in Royal Institution. From the site, http://www.rigb.org/rimain/heritage/faradaypage.jsp
Nano 10-9
Number of papers published per year after the discovery of gold catalysis.
1992 1994 1996 1998 2000 2002 2004 2006 2008 2010
0
1000
2000
3000
4000
5000Nu
mbe r
of pu
blica
tion i
n gold
nano
parti
cle
Year
Publications per year as on December 31, 2009
With the key words, “gold” and “nanoparticle*”
Quantum
Growth of civilization reduced the size of objects manipulated
Technology is about manipulating objects
Objects for bulk technology – bulk materials.
An object for the nanotechnology - nanomaterials.
These solids are very different.They change the definition of disciplines!At the scale of nanometers, boundaries collapse!
Living tropical diatom x6000
http://www.ldeo.columbia.edu/res/fac/micro/images.section/pages/diatom4.gif
Disciplines converge!
Chemistry
Physics
Biology
Mathematics
Materials scienceEngineering sciences
Biotechnology
Pharmaceuticals
Medicine
Dis
tanc
e
Nano
Micro
Pico
Nanomaterials
A magnetotactic bacterium in TEM
Magnetospirillum magnetotacticum
Nature uses nanoparticles!
Proteins, DNA, enzymes,…….
Nanoparticles are formed in cells such as bacteria. Here gold particles are grown in buttermilk bacteria.
1000 nm500 nm
Magnetic nanoparticles
1 book = 300 pages = 300 x 300 words = 300 x 300 x 5 letters = 45,0000 letters
I library = 4.5 x 109 letters
The world knowledge = 100,000 libraries
=4.5 x 1014 letters
One letter in one nanoparticle.
=4.5 x 1017 atoms
(if 1 nanoparticle = 1000 atoms)
How big is that?
Not even a dust!
So, why do we need them?
Cluster size effects
Size dependent melting1871 Lord Kelvin asked “Does MP depend on size of the particle?”
1976, MP of gold was studied smallest gold melt at 300 K (Bulk 1336 K)
Variation in properties with size
Empirical scaling laws
General property, G(R) = G(∞) + a R-α Related to radiusG(R) = G(∞) + a N-β Related to number
G(R) is the property and G(∞) is the bulk limit
Ionization potential with size, K clusters.
This science is old.
Lycurgus cup; in transmitting light (left) and in reflected light (right). From the site, http://www.thebritishmuseum.ac.uk.
Silicon dioxide in Lycurgus cup = 73%Silicon dioxide in Modern Glass = 70%Sodium oxide in Lycurgus cup = 14%Sodium oxide in Modern Glass = 15%Calcium oxide in Lycurgus cup = 7%Calcium oxide in Modern Glass = 10%
So why is it coloured? The glass contains very small amounts of gold ( about 40 parts permillion) and silver ( about 300 parts per million)
R. P. Feynman“There’s plenty of room at the bottom”- http://www.zyvex.com/nanotech/feynman.html
“The principles of physics do not speak against the possibility of maneuvering things atom by atom”.
5 nm x 5 nm
Probe
Surface
Image showing atoms
Scanning probe microscopy. By scanning an atomically sharp probe over a surface, an atomically resolved image of the surface can be obtained.
H. Rohrer and G. Binnig, Nobel prize for physics 1986 for discovering STM.
Scanning tunneling microscopy (STM)
Local electronic structure
Image of 48 Fe atoms on a Cu (111) surface forming a Quantum corral, From the work of M. F. Crommie, C. P. Lutz and E. Eigler, Science, 262 (1993) 218.
A quantum corral with two foci. From, www.almaden.ibm.com/vis/stm/corral.html
5 nm x 5 nm
Probe
Surface Nano line drawn on the surface
Probe
Nanopatterns
A TEM and an image of a nanoparticle taken with TEM. The whole particle is of 4 nm in diamter and each point seen is an atom.
Atom
Particle
NSOM image of a human cell with nanoparticles inside.
Nano can be seen with light also!
Desorption electrospray mass spectrometry featured on the cover of the magazine, ‘Science’. The discoverer of the technique, Prof. R. G. Cooks is on the right.
Advances in other tools
The world we live: 2004
Population – 6.37 b (July 2004)Energy use – 14.93 (Trillion kWh electricity, 2001)Food – 1827 M tons (2003 estimate)
The world we live: 2050
Population – 10 bFood –Water –Air –
Why do we look at nano today?
Most challenging problems
EnergyWaterPopulation and associated issuesLandFood and agriculturePollutionBiodiversityWeaponsDiseasesNatural calamities
2000 1,838 1,855 -162001 1,870 1,898 -272002 1,819 1,910 -912003 1,827 1,932 -105
Food production and consumption in (Mtones)
World EnergyMillions of Barrels per Day (Oil Equivalent)
300
200
100
01860 1900 1940 1980 2020 2060 2100
Source: John F. Bookout (President of Shell USA) ,“Two Centuries of Fossil Fuel Ener International Geological Congress, Washington DC; July 10,1985. Episodes, vol 12, 257-262 (1989).
Solutions?
Nano is THE solutionAt least for some problems…
Can we reach there with our present knowledge?
Very new technologies are needed
Our common assumptions
Industrial development is a must to remove poverty. Millions must work in factories. Greater wealth means greater resource consumption. We must burn more fossil-fuels to have energy. Manufacturing means polluting. More advanced medicine will always be more expensive. Solar energy will never become really inexpensive. Toxic wastes cannot be eliminated. Developed land will never be returned to wilderness. There will never be weapons worse than nuclear missiles.
There will never be water in Chennai.
Summary
1. Industry as we know it cannot be replaced.
2. Technology as we know it will never be replaced
All wrong!We must look into history.
Eric Drexler and Chris Peterson,
Unbounding the Future: the Nanotechnology Revolution
The more important fundamental laws and facts of physical science have all been discovered, and these are now so firmly established that the possibility of their ever being supplanted in consequence of new discoveries is exceedingly remote .. . Our future discoveries must be looked for in the sixth place of decimals.
Albert A. Michelson 1894
Where should we look at?
Nature Technology
New materials
Fullerenes discovered, 1985 Smalley, 1985
Cyanopolyynes
A sample of C60 solid (left) and its solution (right). 1990
Most researched single molecule!
Long molecule
Model of a Y-junction nanotube.
WS2 nanotube, scale 10 nm
R. Tenne
Gold metal (left), gold nanoparticle powder (middle) and its solution (right).
Clusters and magic numbers (13, 55, 147, 309, 561).
Gold shells. Nanoshells designed to absorb various wavelengths of light (the six vials on the right), including infrared (vial at far right) compared to gold colloid (far left). Used with permission from www.ece.rice.edu/people/faculty/halas.
TEM image of gold nanorods. An expanded view of the tip is on the left top corner.
A
20 nm
B
5 nm
CA
20 nm
B
5 nm
C
Gold nanotriangles
Quantum dots of CdSe showing fluorescence in different colours. From left to right, the particle size decreases. From, http://zqlin.public.iastate.edu/Pages/Homepage.htm
Nanotubes made of an inorganic oxide. Courtesy, Nature.
1988 1992 1996 2000 20040
4k
8k
12k
16k
Nano
* ref
eren
ces
Year
Nano publications
Applications
Nanotube-based materials. Nanotube (black) is woven with fibres to make super-tough clothing (left). Nanotube based spinning (right).
Novel properties
Nanotube-based TV screen developed by Samsung corporation.
Dye sensitized solar cells. Courtesy of Greatcell Solar.
Novel technologies for water, environment…
Carbon nanotube filters, membranes, nanopores…
Interaction of vancomycin with Au nanoparticles Bis(vancomycin) cystamide in water is reacted with 4 – 5 nm sized Au nanoparticles in toluene.
Au@van dissolves in the aqueous phase and can be seperated.
Nearly 31 Vancomycin molecules are bound on the surface of the Au nanoparticle as calculated from UV-Visible studies.
Control Experiment:-• Au@cys was prepared and nearly 1800 molecules of Cysteine was found to bind onto the nanoparticle surface.
• The broadness of the peak in UV-Vis studies indicated aggregation.
Delivery vehicles
Chem. Mater. 2003, 15, 20-28
Sensors
Temperature dependent clear-opaque transition of the thermosensitive gold nanoparticle
JACS 2004
Smart materials
Nanosensors of this kind can detect single molecules. http://www.kurzweilai.net/news/frame.html?main=news_single.html?id%3D2073
Single molecule detection
Carbon nanotube-based NEMS.
Nanoparticles of silver disappear in a chemical reaction.
Environmental protection
STM image of MoS2 nanoflakes. From, Nanotechnology 14, pp. 385-389 (2003)
Nanocatalysis
Applications
Endosulfan
Color changes with pesticide concentrationGood response at lower concentrationsDown to 0.1 ppmAdsorbed pesticides can be removed from solution
Color of gold nanoparticles with endosulfan
Endosulfan concentration in ppm
02100 200
Example
Pesticide removalIndian Patent grantedInternational patent filedTechnology commercialized, factory put up
J. Environ. Monitoring. 2003
Pesticide removal from drinking water
Indian patent grantedPCT application filedTechnology transferredProduct under testing and ready to launch
Time (minutes) Time (minutes)
A B
Inauguration
STM image of MoS2 nanoflakes. From, Nanotechnology 14, pp. 385-389 (2003)
Nanocatalysis
Pollutants Harmless products
ChlorocarbonsC2H2Cl2, C6Cl6, chlorpyrifos, endosulfan
amorphous carbon
TiO2
Polluted water Purified water
As adsorption
Magnetic Fe3O4 nanopartilcles
Purification by circulation
Magnetic separation
Magnetic clays for oil cleanupAntibody taggingMagnetic hyperthermia
Mind-matter?
Where are we heading to?
E. F. Schumacher
What do nanomaterials offer?
Carbon nanotubes are the toughest materials known.Nanoparticle based solar cells are more efficient than conventional ones.Nanoparticles of gold are highly efficient oxidation catalysts.Nanodots are very good fluorescent dyes.Nanotubes and particles can be delivered right into the cell nuclei.Nanoparticles find their way into our food and drugs.Nanoparticle based methods can screen diseases quickly.Many nanoparticles break toxic chemicals.……..
So what?
Our clothing will have nanomaterials tomorrow.Our toothpaste, soaps and detergents already have nanoparticles.Our medicines carry nanomaterials.Future surgeries will be done by needles and will be bloodless.Our world outside is going to change with new materials and systems. Mind and matter may be linked.
Let us look forward to that world…..Because ….
The great Indian realities
25,00,00,000 not have enough to eat That many with not enough clothing, housing, electricity,…80,00,00,000 with not enough water
We need 91,000,000 tons of grains per year to feed the hungry
Our roads, our environment, our forests, …
If we live the way we live….the neighbours will perish.
Something needs to be done.
And you must.
Confocal Raman Microscope
UltramicrotomeQTrap MS
Transmission Electron Microscope
MALDI TOF MS
Nano Mission, DST, Govt. of India
I thank my students and collaborators for their hard work which made it possible to stand before you…
Thank you all.
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