Introduction to Nano-Science I Einführung in die Nano-Science I · 2012-04-16 · Introduction to...
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Introduction to Nano-Science IEinführung in die Nano-Science I
Outline
1. Who are we ?2. What is nano-science ?3. Why do we do nano-science ?
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Prof. Dr. Frank Schreiber (Studiendekan)[email protected]
Tel.78663, office C7A35http://www.soft-matter.uni-tuebingen.de
MON & THU 15-17 in BioIII / N10-50
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3. Why do we do nano-science ?� Fundamental questions� Applications
4. What is going to come ?� Tools and methods� Preparation� Effects
5. Organisation and logistics (Üner in the break)
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Prof. Dr. Frank Schreiber (Studiendekan)[email protected]
Tel.78663, office C7A35http://www.soft-matter.uni-tuebingen.de
Biology Physics Chemistry
Introduction to Nano-Science IWho are we ?
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Prof. Dr. Reiner AnwanderProf. Dr. Klaus Harter
Dr. Üner Kolukisaoglu (Studienkoordination) Dr. Yucang Liang
Dr. Fajun Zhang
Dr. Monika Fleischer
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Introduction to Nano-Science IWhat is Nano-Science ?
What is Nano-Science ?
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What is Nano-Science ?
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• “Nano-Science” summarises the scientific areas concerned with
materials and effects on the nano-meter scale (1 nm=0.000000001 m)
(note that “nano one dimension (i.e. thin films)” is enough to qualify)
• Interdisciplinary in nature (biology / chemistry / physics)
(including applications and engineering)
Introduction to Nano-Science IWhat is Nano-Science ?
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An example: Lotus effect
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Chemistry(synthesis, characterization and applications
Information feedback
synthesis
Introduction to Nano-Science IWhat is Nano-Science ?
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Figure prepared by Yucang Liang
Physics(characterization,
applications)
Biology(applications,
bionanotechnology in medicine etc)
Nanomaterials
Biophysics
Information feedback
characterization methology
Information feedback
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Introduction to Nano-Science IWhat is Nano-Science ?
General remarks
Consider relevant orders of magnitude
… length scales… time scales… energy scales
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… energy scales… temperature scales
Methods for Characterisation
... microscopy
... scattering
... spectroscopy
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Introduction to Nano-Science IWhat is Nano-Science ?
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Introduction to Nano-Science IWhat is Nano-Science ?
Ant
~ 5 mm
Fly ash
~ 10-20 μmHuman hair
~ 60-120 μm wide
Dust mite
~ 200 μm
Pin head
~ 1-2 mm
MicroElectroMechanical
(MEMS) devices
~ 10-100 μm
Pollen
Manmade/synthetically preparedManmade/synthetically preparedManmade/synthetically preparedManmade/synthetically preparedAvailable in NatureAvailable in NatureAvailable in NatureAvailable in Nature
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Red blood cells
~ 7-8 μm
10 nm diameter
ATP synthase
DNA
~ 2-1/2 nm diameter
Atoms of Silicon
spacing ~ 0.078 nm
Red blood cells
Pollen
grain
Zone plate X-ray
“lens”
Outer ring space ~ 35 nm
Self-assembled
structure
dimensions ~ 10s ofnm
Nanotube
electrode
Carbon
nanotube
~ 1.3 nm
diameter
Carbon
buckyba
ll
~ 1 nmQuantum corral of 48 Fe atoms on Cu
surface
using STM tip; Coral diameter ~ 14 nm
Fabricate and Fabricate and Fabricate and Fabricate and combine combine combine combine nanoscalenanoscalenanoscalenanoscalebuilding blocks building blocks building blocks building blocks to make useful to make useful to make useful to make useful devices, e.g. devices, e.g. devices, e.g. devices, e.g. photosynthetic photosynthetic photosynthetic photosynthetic reaction center reaction center reaction center reaction center with storagewith storagewith storagewith storage
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Introduction to Nano-Science IWhat is Nano-Science ?
Note that there are not only length scales, but also time and energy scales
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Introduction to Nano-Science IWhat is Nano-Science ?
Note that there are not only length scales, but also time and energy scales
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Introduction to Nano-Science IWhat is Nano-Science ?
Note that there are not only length scales, but also time and energy scales
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E = hω = hν � h/ti.e. order of magnitude: energy 1 meV � time scale ~1 ps
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Introduction to Nano-Science IWhat is Nano-Science ?
If you want to understand function,you need to study structure
(added later by Zewail and others:)
… and dynamics.
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Introduction to Nano-Science IWhat is Nano-Science ?
AhmedZewail
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Zewail
Nobel Prize 1999
"for his studies of the transition states of chemical reactions using femtosecond spectroscopy "
in Chemistry
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Introduction to Nano-Science IWhat is Nano-Science ?
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Introduction to Nano-Science IWhy do we do Nano-Science ?
Why do we do Nano-Science ?
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Why do we do Nano-Science ?
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Introduction to Nano-Science IWhy do we do Nano-Science ?
Why do we do Nano-Science ?
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Why do we do Nano-Science ?Fundamental issues
& Applications
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Introduction to Nano-Science IWhy do we do Nano-Science ?
Fundamental issues1. How do things work on the microscopic level ?
� in solids ? (e.g, Do we understand crystallisation of proteins ?)� in chemistry ?� in biology ? (from Hamiltonians to Life ?)
2. Small is different ? … new effects ?
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2. Small is different ? … new effects ?� magnetic recording (perpendicular magnetisation)� giant magneto-resistance (GMR)� Mermin-Wagner-theorem (“magnetism breaks down in pure 2D“)� melting point changes for small particles compared to bulk� limits of microelectronics ?
3. Small is different ? … new material properties ?� colour effects of nano-particles� quantum transport� …
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Introduction to Nano-Science IWhy do we do Nano-Science ?
Applications1. New material properties, e.g.
� small is different� new structures (e.g., open frameworks)
2. New effects, e.g.� magnetic recording (perpendicular magnetisation)
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� magnetic recording (perpendicular magnetisation)� giant magneto-resistance (GMR)� colour effects
3. New sensing applications, e.g.� various microscopy techniques� field enhancement near nanoparticles
(see section on nano-science and biology)4. …
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Introduction to Nano-Science IWhy do we do Nano-Science ?
Example: Making Organic Photovoltaics Devices
heterostructure
nanoparticles
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interfaces
heterostructure
� This is a very complicated architecture !
� There is lots of work for nano-scientists to improve this !
(Several components)
based on Alexander Hinderhofer and Frank Schreiber, ChemPhysChem (2012)
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
What is going to come
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What is going to comein Nano-Science I ?
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Outline of the lecture is not really:
1. Nano-Science and Biology2. Nano-Science and Physics
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2. Nano-Science and Physics3. Nano-Science and Chemistry
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Outline of the lecture is rather:
1. Making nano-materials:Top-down vs. Bottom-up
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Top-down vs. Bottom-up2. Making nano-materials:
Nano-chemistry3. Properties & applications of nano-materials:
Gold nanoparticles as a prototype example4. Nano-science and biology:
Advanced microscopy tools and beyond
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Making nano-materials:Top-down vs. Bottom-up(Fajun Zhang and Monika Fleischer)
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Making nano-structures
Lithography and beyond …Manipulation of atoms on surfaces …Smart chemistry …
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”Top down“ fabrication:Fabrication of individual structures from extended material, often miniaturization of existing concepts. Good control over position and shape, downsizing limited.
”Bottom up“ fabrication:(Self organized) arrangement of atoms, molecules or particles, e.g. by chemical synthesis. Very small particles possible, limited control over shape and position.
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Making nano-structures
Lithography and beyond …Manipulation of atoms on surfaces …Smart chemistry …
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”Top down“ fabrication:Fabrication of individual structures from extended material, often miniaturization of existing concepts. Good control over position and shape, downsizing limited.
”Bottom up“ fabrication:(Self organized) arrangement of atoms, molecules or particles, e.g. by chemical synthesis. Very small particles possible, limited control over shape and position.
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CrAu
1) Silicon wafer
Si
Si
Fabrication process - example
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2) Evaporation of Ti, Au and Cr
AuTiSi
Si + Ti/Au/Cr
3) Spin-coating with HSQ negative e-beam resist
HSQCrAuTiSi
Si + Ti/Au/Cr + HSQ
F. Stade et al., Microelectron. Eng. 84, 1589 (2007); M. Fleischer et al., Nanotechnology 21, 065301 (2010)
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HSQCrAu
4) Electron beam exposure,development with TMAH
HSQCrAuTiSi
Si + Ti/Au/Cr + HSQ
50 µm
50nm
50nm
Fabrication process - example
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50 nm
6) HSQ removal by furtherion etching
AuTi
Si
5) Transfer into metal by ionetching
AuTiSi
F. Stade et al., Microelectron. Eng. 84, 1589 (2007); M. Fleischer et al., Nanotechnology 21, 065301 (2010)
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200 nm
Functional micro- and nanostructures
Resist characterization
Microgrippers
Single electron transistors20 mµ
Courtesy of Kern / Fleischer group, Tübingen
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2 mm
200 nm
5 mµ
● Microfluidic channels
Carbon nanotubes ●
● Bio templates
Plasmonic nanostructures ●
5 µm
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Making nano-structures
Lithography and beyond …Manipulation of atoms on surfaces …Smart chemistry …
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”Top down“ fabrication:Fabrication of individual structures from extended material, often miniaturization of existing concepts. Good control over position and shape, downsizing limited.
”Bottom up“ fabrication:(Self organized) arrangement of atoms, molecules or particles, e.g. by chemical synthesis. Very small particles possible, limited control over shape and position.
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Surface modification by self-assembled monolayers (SAMs)as a form of nano-technology
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Love et al., Chem. Rev. 105 (2005), 1103Schreiber, Prog. Surf. Sci. 65 (2000) 151
Applications of SAMs� Tailoring wetting, adsorption, and growth� Docking of adsorbates, e.g. biomolecules� Corrosion protection� …
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
FMany competing processes on the surface;full description very difficult
Growth of thin films
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θn+1
θn
θn-1
D
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
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Principle of Scanning Tunneling Microscopy ‚(STM)
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
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Images by Richard Berndt (Kiel)Recorded by STM at low T after manipulation of atoms
Images by Don Eigler (IBM)Recorded by STM at low T after manipulation of atomsSee also Don Eigler talk on YouTube
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
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Images by Don Eigler (IBM)Recorded by STM at low T after manipulation of atomsTEDxCaltech - Don Eigler - Moving Atoms, one-by-onehttp://www.youtube.com/watch?v=rd2dri9p_EI
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
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Images by Don Eigler (IBM)Recorded by STM at low T after manipulation of atomsHere they have positioned 48 iron atoms into a circular ring in order to “corral” some surface state electrons and force them into “quantum” states of the circular structure. The ripples in the ring of atoms are the density distribution of a particular set of quantum states of the corral. [Crommie, Lutz & Eigler]
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Animation STM data
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Images by Gerhard Meyer (IBM)Image of pentacene on surface, recorded by STM at low TAn example� for making nano-structures� for chemistry, � and for properties on the nano-scalehttp://www.youtube.com/watch?v=jnLRl_74BZs“IBM Scientists First to Image the Anatomy of a Molecule”
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Making nano-materials:Nano-chemistry(Reiner Anwander and Yucang Liang)
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
zeolitesnano-sizedclusters
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metalorganicframeworks
carbon „bucky“ tubessurface
functionalization
O Si O Si O Si
OOO Si
OO
Si O Si O Si O Si OMeHO
SH SH SH SH
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Open-Framework Inorganic MaterialsNew materials try to emulate nature`s open frameworks
cacoxenite, dp 14.2 Å
{[AlFe 24(OH)12(PO4)17(H2O)24]×]×]×]×51H2O}
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Angew. Chem. Int. Ed. 1999, 38, 3268–3292.
JDF-20[Al 5P6O24H]2-
2[N(C2H5)3H]+××××2H2O,14.5××××6.5 Å
cloverite (CLO), gallophosphate, dp 13.2 Å
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Crystalline, Microporous Supports –Zeolites and Zeotypes
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Zeolite Y12R-pores:7.4 × × × × 7.4 Å
supercage: d = 13 Å
Zeolite UTD-114R-pores:7.5 × × × × 10 Å
Cloverite (GaPO 4)20R-pores:6.0 × × × × 13.2 Å
supercage: d = 30 Å
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Synthesis of a quintessential nano-object:
Gold nano-particlesMethod by Turkevich et al. (Reduction by citrate)
A STUDY OF THE NUCLEATION AND GROWTH PROCESSES IN THE SYNTHESIS OF COLLOIDAL GOLD by J. Turkevich, P. C. Stevenson, J. HillierDISCUSSIONS OF THE FARADAY SOCIETY (11): 55 (1951)
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Citrate as reducing and stabilizing agent
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Properties & applications of nano-materials:Gold nanoparticles as a prototype example(Fajun Zhang)
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Properties & applications of nano-materials:Gold nanoparticles as a prototype example(Fajun Zhang)
1. Colour effects
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1. Colour effects2. Near-field effects3. Scattering effects4. Field enhancement e.g. in organic photovoltaics5. Field enhancement e.g. for sensors6. AuNPs as marker in biology
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Tailoring of the Optical Properties of Gold ColloidsAu Nanoparticles: Colour as a function of size
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Sources: http://www.sharps-jewellers.co.uk/rings/images/bien-hccncsq5.jpghttp://www.foresight.org/Conferences/MNT7/Abstracts/Levi/
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Tailoring of the Optical Properties of Gold ColloidsAuAg Bimetallic Nanoparticles: Alloys vs. Core-Shells
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Variation in optical properties(UV-vis spectra and color) for AuAg alloy nanoparticle colloidswith varying compositions.
Aqueous dispersions of (from left to right) Au, Au@Ag, Au@Ag@Au, and Au@Ag@Au@Ag NPs, and the corresponding TEM images. Au core size: 16 nm.
MPI Golm
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
• Surface plasmon resonance of metal NP
• Intensity enhancement (near field)
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Example: Making Organic Photovoltaics Devices
heterostructure
nanoparticles
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interfaces
heterostructure
� This is a very complicated architecture !
� There is lots of work for nano-scientists to improve this !
(Several components)
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
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F. Schreiber, Nature Materials, 10 (2011), 813
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Small-Angle Scattering
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
gemessene Intensität( )rrrp γ2)( =
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
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Introduction to Nano-Science IWhat is going to come in Nano-Science I ?
Nano-science and biology:Advanced microscopy tools and beyond(Klaus Harter and Üner Kolukisaoglu)
… STED microscopy
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… STED microscopy… STORM (microscopy)… FCS… optical tweezers
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Stimulated Emission Depletion (STED)-Mikroskopie
STED benutzt stimulierte STED benutzt stimulierte Emission zur Emission zur
AuflösungssteigerungAuflösungssteigerung
Die Abbesche Grenze gilt Die Abbesche Grenze gilt noch immer, der Ausdruck noch immer, der Ausdruck
wird um einen Sättigungsterm wird um einen Sättigungsterm
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ς1+•
wird um einen Sättigungsterm wird um einen Sättigungsterm erweiterterweitert
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STED-Aufbau und Ergebnis
STED: Aufbau und Ergebnis
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Stochastic Reconstruction Microscopy (STORM)
Einzelne Punkte können im konfokalen Bild mit Einzelne Punkte können im konfokalen Bild mit wesentlich höherer Präzision lokalisiert werden, wesentlich höherer Präzision lokalisiert werden, als zwei Punkte getrennt voneinander aufgelöst als zwei Punkte getrennt voneinander aufgelöst
werden können.werden können.
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Ein Punkt erscheint im Fluoreszenzbild in der Form der Point Spread Ein Punkt erscheint im Fluoreszenzbild in der Form der Point Spread Function (PSF): Function (PSF):
Einfachste Form: Gaussform der PSF: Maximum bestimm bar nach:Einfachste Form: Gaussform der PSF: Maximum bestimm bar nach:
Positionsgenauigkeit nur Abhängigkeit von Photonenz ählstatistikPositionsgenauigkeit nur Abhängigkeit von Photonenz ählstatistik
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STORM-Ergebnis
konfokalkonfokal STORMSTORM
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Fluorescence Correlation Spectroscopy (FCS)
Optische Messmethode, bei der Informationen aus Fluktuationen der Fluoreszenzintensität gewonnen werden
Methode entwickelt in 1972; prinzipiell sind alle Moleküldynamiken zugänglich, z. B.:
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- Molekülbewegung
- Konformationsumkehrungen
- Chemische und photophysikalische
Reaktionen
Aus: Schwille et al. Fluorescence Correlation Spectros copy
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FCS-Ergebnisse: In Vitro Diffusion Abhängig von Temperatur, Viskosität des L SM
(beides konstant) und Größe / Form des diffundieren den Partikels
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- Nachweis von Bindungsereignis, z. B. Protein/Antikö rper-Interaktion- Verfolgung von Konformationsänderungen
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FCS-Ergebnisse: In Vivo
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Subzelluläre Analytik:
- Proteinbeweglichkeit
- Viskosität
- Verteilung
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Optical Tweezers: Werkzeuge zurUntersuchung von biomolekularen Motoren
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Introduction to Nano-Science IEinführung in die Nano-Science I
Outline
1. Who are we ?2. What is nano-science ?3. Why do we do nano-science ?
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Prof. Dr. Frank Schreiber (Studiendekan)[email protected]
Tel.78663, office C7A35http://www.soft-matter.uni-tuebingen.de
MON & THU 15-17 in BioIII / N10-50
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3. Why do we do nano-science ?� Fundamental questions� Applications
4. What is going to come ?� Tools and methods� Preparation� Effects
5. Organisation and logistics (Üner in the break)
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