Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l...
Transcript of Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l...
![Page 1: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/1.jpg)
Nanotechnology
Prof. Andrea M. Armani
![Page 2: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/2.jpg)
Overview
Definition of Nano
Intel Chip
Applications of Nanotechnology
![Page 3: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/3.jpg)
Size and Scale: Factors of 1000
Courtesy of Charles Tahan
![Page 4: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/4.jpg)
Size and Scale: Factors of 1000
Courtesy of Charles Tahan
![Page 5: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/5.jpg)
Size and Scale: Factors of 1000
Courtesy of Charles Tahan
![Page 6: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/6.jpg)
First Nanotechnology: Stained GlassGold (Au) and Silver (Ag) nanoparticles create colorsGold (Au) and Silver (Ag) nanoparticles create colors
Size: 25nm Size: 100nm
Size: 50nm Size: 40nm
Gol
d
SilverSize: 100nm Size: 100nm
The New York Times; Images courtesy of the Stained Glass Museum, Britain; Kenneth Chang, "Tiny Is Beautiful: Translating 'Nano' Into Practical", The New York Times, February 22, 2005.
![Page 7: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/7.jpg)
Overview
Definition of Nano
Intel Chip
Applications of Nanotechnology
![Page 8: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/8.jpg)
Who does nano?
El t i l
Mechanicalengineers
Ci il
One example:
Electricalengineers
Civilengineers
Chemicalengineers
AeronauticalEngineers/scientists
High performance polymer solar cell
MaterialsComputerEngineers/scientists
EnvironmentalEngineers/scientists
Engineers/scientists
![Page 9: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/9.jpg)
Impact areas of Nanotechnology
• Energy• Solar cells• Batteries
• “Technology”• Computers• OLEDs• Photonics• Photonics
• Biotechnology• Imaging
Di ti• Diagnostics• Therapeutics (cancer, HIV)
• Consumer ProductsSki• Skin care
• Composites
![Page 10: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/10.jpg)
Solar Energy
Nanowire based
Crystalline Silicon
Nanowire based
Polymer based
![Page 11: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/11.jpg)
Nano-Silicon Solar Cells
Same amount of energy even when bent!- The solar cell doesn’t break!
Yoon, J. et al, Nat. Mat. 7 (2008).
![Page 12: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/12.jpg)
Silicon solar microcells: with microlens
Yoon, J. et al, Nat. Mat. 7 (2008).
![Page 13: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/13.jpg)
Silicon solar microcells: with microlens
- Lens array increases collection efficiency of solar cell if the sun is “on-axis”y y
Yoon, J. et al, Nat. Mat. 7 (2008).
![Page 14: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/14.jpg)
Energy: Nanowire-based solar cellsOne problem with solar cells isOne problem with solar cells is getting all of the solar energy from the anode to the cathode efficiently.
The nanowires act as thousands of little electrical wires, providing conduction paths.conduction paths.
Panel made with nanowire technology
![Page 15: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/15.jpg)
Quantum Dot/Nanowire Solar cells
Z O i lZnO nanowires grown on a glass substrate and decorated with CdSe quantum dots is the photoanode.
A second glass substrate, coated with a 100 Å layer of Pt, is the photocathode.
The space between the two electrodes isThe space between the two electrodes is filled with a liquid electrolyte (to encourage transfer), and the cell is illuminated from the bottom, as shown.
Leschkies, K. et al, Nano Lett. 7 (2007).
![Page 16: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/16.jpg)
Impact areas of Nanotechnology
• Energy• Solar cells• Batteries
• Biotechnology• Imaging• Diagnostics• Therapeutics (cancer HIV)• Therapeutics (cancer, HIV)
• “Technology”• Computers
OLED• OLEDs• Photonics
• Consumer ProductsSki• Skin care
• Composites
![Page 17: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/17.jpg)
BiotechnologyDrug Discovery Biomedical DevicesDrug Discovery•Solving structures of virus/bacteria to understand how to inhibit behavior•Developing new methods to block interactions between pathogen and host
Biomedical Devices•Curing degenerative diseases•Repairing traumatic injuries•Minimally invasive surgary
interactions between pathogen and host
Imaging Diagnostics
Au nanoparticle HIV treatment Neural Implant
Imaging•Developing new imaging modalities (equipment)•Developing new enabling tools (new fluorescent molecules lasers etc )
Diagnostics•Developing new diagnostic methods•Developing new tools (devices or platforms)
fluorescent molecules, lasers, etc.)
Quantum dot imaging Nano-cantilever sensor
![Page 18: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/18.jpg)
El t i l M h i l
Sensing Methods
Electrical Mechanical
In2O3nanowire
Si/SiO2back gate
Ti/Au electrodes
example: Nanowire/Nanotube based detection example: Cantilever based detectionexample: Nanowire/Nanotube-based detection
University BaselZhou, USC
example: Cantilever-based detection
OpticalMagnetic
example: Fluorescent-probe assayY
Y
Y
example: Magnetic nanoparticles
G. MacBeath, Nat. Gen. 32 2002.
![Page 19: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/19.jpg)
Chemical Sensing
Operation principle: NO2 molecules withdraw electrons from In2O3
ON
In2O3nanowire
Ti/A
Si/SiO2 back gate
Ti/Au electrodes
Advantage of In2O3 nanowires:
In
Advantage of In2O3 nanowires:1. Single crystal; 2. No amorphous coating (as compared to
Si NWs with amorphous SiO2);3 Hi h f t l ti3. High surface-to-volume ratio.
A: exposed to NO2 in airA: exposed to NO2 in airB: UV light illumination to recover the deviceC: turn off UV;
C. Zhou: EE/MASC
![Page 20: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/20.jpg)
Detection of PSA
PSA is a bio marker for the presence of prostate cancer, which is the most frequently diagnosed
cancer among men in the UScancer among men in the US.
Standard PSA Probability of cancer
0-2 ng/mL 1%
2 4 / L 15%2-4 ng/mL 15%
4-10 ng/mL 25%
>10 ng/mL >50%
Collaboration with Richard Cote, USC Center for Cancer Research
![Page 21: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/21.jpg)
Selective detection of PSA in PBS
Individual In2O3 Nanowire:Enhanced Conduction
Nanotube Mat:Reduction Conduction
1. No response when BSA was added2. Detection of PSA down to 5ng/mL achieved in Phosphate Buffered Solution (PBS) buffer2. Detection of PSA down to 5ng/mL achieved in Phosphate Buffered Solution (PBS) buffer
Real-time detection of PSA in aqueous environment
J. Am. Chem. Soc.; 2005; 127(36); 12484
![Page 22: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/22.jpg)
Optical sensing technologyHigh Concentration Single MoleculeHigh Concentration Single Molecule
• Fluorescent Arrays (ex. ELISA)• Microscopy (confocal, wide field)
Imaging• Total Internal R fl tiReflection Fluorescencemicroscopy (TIRF)• Nanoscopyab
eled
py
Probes• Optical Tweezers
D Lidk t l N t Bi t h 22 2 (2004) T Ch l N l A id R 34 17 (2006)
L
D. Lidke, et al, Nat. Biotech. 22 2 (2004). T. Chan, et al, Nucl. Acids Res. 34 17 (2006).
• Resonant/Evanescent microcavity
ee
• Optical waveguides• Surface plasmon resonance
R t it
abel
-fre • Resonant cavity
A. Armani, et al, Science (2007).
La
Y. Fainman, UCSD
![Page 23: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/23.jpg)
Optical Sensor Fabrication
Silica toroid
Silicon pillar
(a)
SEM of microtoroid resonator85m
(a) (b) (c) (d)
D. Armani et al, Nature 421 (2003).Q~106 Q~10850m
![Page 24: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/24.jpg)
Armani Lab Research
O ti l Ch D t t bl Si lOptical Change:• Refractive index change• Diameter change
Detectable Signal:• Q change• Resonant frequency change
ansm
issi
on
• Material loss change • Transmission change
Previous detection demonstrationsMolecules Cells
Tra
Wavelength ()
sion
sion
Wavelength Change
- Molecules - Cells- Chemicals - Virus- Protein conformations Tr
ansm
iss
Tran
smis
s
Transmission Change Q ChangeWavelength () Wavelength ()
A. M. Armani, et al, Science (2007).
![Page 25: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/25.jpg)
Armani Lab: Sensors need to be specific
Click Chemistry www.bioteach.ubc.ca
HN
NH
Oprobe
Click Chemistry b oteac ubc ca
Lipid bilayers
SiO2
O O OH
Si OMe
C
O
O
NOH
N h d i i id (NHS) t h i tN-hydroxysuccinimide (NHS) ester chemistry
H. K. Hunt, et al, Sensors, under review (2010). L. M. Freeman, et al, Nano Letters, under review (2010).
![Page 26: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/26.jpg)
Quantum Dots changed world of taking images of cells in the early 1990’s
Imaging: Cadmium Selenide QDot’sQuantum Dots changed world of taking images of cells in the early 1990 s.
![Page 27: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/27.jpg)
Imaging: Cell Structure Review
![Page 28: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/28.jpg)
M
Imaging: QDots
Mouse• Microtubules (green, Qdot 525-streptavidin)• Mitochondria (red, Qdot 605-streptavidin)• Nuclei (Hoechst blue dye - a dye that is preferentially absorbed by the nucleus).Nuclei (Hoechst blue dye a dye that is preferentially absorbed by the nucleus).
![Page 29: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/29.jpg)
Imaging: Half-life of QDot
H lf lif ti til d /fl t l l i l itti li htHalf-life~time until a dye/fluorescent molecule is no longer emitting lightlonger half-life = better fluorescent molecule (for most applications)
Nuclear antigens stained with Alexa Fluor 488 (green dye)Microtubules stained with Qdot 605 streptavidin conjugate (red QDot).Microtubules stained with Qdot 605 streptavidin conjugate (red QDot).
The time series shows emission after an initial illumination.
QD t h h l h lf lif !QDots have much longer half-life!
“Lighting Up Cells with Quantum Dots,” Biotechniques, 34(2), 296 (2003).
![Page 30: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/30.jpg)
Skin as delivery target
Skin•Skin represent the largest and most easily accessible organ of the body•Low permeability to most moleculesLow permeability to most molecules•Outer layer (approximately 20 microns thick) is the contributor to impermeability
ff fDrug related properties that affect flux•Concentration gradient of drugs within the skin
•Ability of drugs to partition into the skinAbility of drugs to partition into the skin•Ability of drugs to partition out of the skin into the underlying tissues
•DiffusivityD t i d b h i l t t f th•Determined by chemical structure of the
drug
http://www.clinimed.co.uk/Portals/10/images/Derm_Figure1.jpg
![Page 31: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/31.jpg)
Transdermal Patch with nano-needles
Delivery of drug/vaccine into skinExample of transdermal patch(polymer needles)
Images: Courtesy Nanotechnology Victoria Ltd, Resin Design
![Page 32: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/32.jpg)
Benefits Of Transdermal Patches•Transdermal patches can deliver nano formulated drugs/vaccines which
Benefits of Transdermal PatchesBenefits Of Transdermal Patches•Transdermal patches can deliver nano-formulated drugs/vaccines, which
• have unique properties• can easily enter blood vessels once delivered to skin• can target particular cell types, such as immune cells
•Examples of drugs that could be patch-delivered: • proteins such as insulin
•Examples of vaccines that could be patch delivered:• protein vaccines• protein vaccines• DNA vaccines.
•Due to directed delivery of nano-formulated drugs/vaccines, the use of patches means that
• only small quantities of drugs/vaccines are required• less drug/vaccine is ‘wasted’
i.e. dispersed in blood or connective tissue before it reaches target cellsp g• less side effects due to small dosage delivered directly to target cells • an optimal immune response is generated.
![Page 33: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/33.jpg)
Benefits of Transdermal Patches
Protrusions can be specifically engineered to ensure:D li di tl t i• Delivery directly to immune cells therefore less material required
• Painless application and noPainless application and no scar tissue formation
• Versatility in applications: vaccines, drugs, hormones, wound healing proteins.
Image: Courtesy Nanotechnology Victoria Ltd
Microscopic images of transdermal patch protrusions
![Page 34: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/34.jpg)
Out-of-plane Micro-needle
f fThere is still some debate about if it is better to focus on using nano- to improve transfer across skin (ie poke small holes) or if the development of nano-syringes should be focusfocus
Proceedings of IEEE, 92:1, (2004).
![Page 35: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/35.jpg)
Capsule Endoscopy aka PillCam
• Swallowable system: 11mmx30mm
• Include video camera, light source and itransmitter
• 50,000 images transferred during 8hr test
• Recoverable
• Passes through system “naturally”
![Page 36: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/36.jpg)
Esophagus Images with PillCam
Normal Possible Barrett’s* in esophagusNormal Possible Barrett s in esophagus
PillCam images:
Barrett’sClassic Endoscopy images
Barrett s
http://www.amc.edu/http://singluten.files.wordpress.com
*Barrett’s: change in cellular lining of the lower esophagus; related to gastrointestinal reflux; can result in a peptic ulcer
![Page 37: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/37.jpg)
VeriChip
OOnly FDA-approved human-implantable RFID microchip
Security (and other tracking methods) hasSecurity (and other tracking methods) has reached the subcutaneous level for Mexico’s attorney general and at least 160 people in his office (as of March 2007).
They have been implanted with microchips that get them access to secure areas of their headquarters.q
The chips are made by VeriChip.
IEEE Spectrum, March 2007.
![Page 38: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/38.jpg)
Impact areas of Nanotechnology
• Energy• Solar cells• Batteries
• Biotechnology• Imaging• Diagnostics• Therapeutics (cancer HIV)• Therapeutics (cancer, HIV)
• “Technology”• Computers
OLED• OLEDs• Photonics
• Consumer ProductsSki• Skin care
• Composites
![Page 39: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/39.jpg)
Technology
Photonics(Nanowire laser)
Computers (Intel Chip)
Nano-lithography(dip-penlithography)
Micro/Nano-machines(Microgears imaged with a spider mite)
![Page 40: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/40.jpg)
Technology: Armani Group Research
Waveguide
500nm
Resonant Cavity
500m500m
H. Hsu, C. Cai and A. M. Armani Opt. Express 17 25 (2009).; H. S. Choi.,et al Opt. Lett. 35 4 (2010).X. Zhang, et al, Appl Phys Lett 96, 153304 (2010).
![Page 41: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/41.jpg)
Technology: OLED
OLED O i Li ht E itti Di dOLED: Organic Light Emitting Diode
Nobel Prize in Chemistry (2000) for conducting polymers:for conducting polymers:• Heeger (UCSB)• MacDiarmid (U Penn)• Shirakawa (U Tsukuba)
![Page 42: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/42.jpg)
Technology: OLED
Samsung’s Bendable OLED display
![Page 43: Prof. Andrea M. Armani · 2010. 9. 13. · Armani Lab Research Oti lChOptical Change: Dt tbl Si l • Refractive index change • Diameter change Detectable Signal: • Q change •](https://reader035.fdocuments.us/reader035/viewer/2022071111/5fe6b83d99d9f979c0359420/html5/thumbnails/43.jpg)
Research Group MembersP t d /G d t St d tPost-docs/Graduate Students
Undergrad Students Fields:BiologyBiomedical EngineeringChemistryChemical Engineering
Funding:
Chemical EngineeringElectrical EngineeringMaterials Science