Production of Quantum Dots
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Transcript of Production of Quantum Dots
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01
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• Definition
• Synthesis pathway
• Application
• Advantages
• Challenges
• Conclusion
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CONTENTS
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• New biological fluorescence material
• Nanoparticle
• Size : close to Bohr radius 10 nm
• Shape : Spherical
• Material : fluorescent semiconductor nanocrystal
• Made up : Group 12 and 16 elements
DEFAULT STYLES 03
DEFINITION
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http://Chemistry.about.com
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https://www.photonics.com
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• 2 pathways : liquid phase & organic phase
• Restriction in organic phase
– High temperature
– Complicated step
– High cost
– Poor stability
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SYNTHESIS PATHWAY
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• Liquid phase synthesis (more convenient)
– Metal ions
– Modified reagents
– Tellurium (Te) source
– Sulfur (S) or Selenium (Se) source
– Auxiliary reagent
– Heat
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…cont
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• Tumor diagnosis
– QD-IgG & Cy3-IgG
• Drug delivery
– Cancer therapy
• Drug screening
– Mark target molecule
08
APPLICATION
Hu M, Yan J, He Y. Ultrasensitive, multiplexed detection of
cancer biomarkers directly in serum by using a quantum
dot-based microfluidic protein hip. ACS
Nano,2010,4(1):488-494.
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DNA degradation
Cancer cell
uv
Quantum dot
Drug molecule
Antibody09
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• Good quantum effect
– Broad & consecutive excitation spectra
– Tunable size-dependant emission
– Strong resistance to photo bleaching capacity
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ADVANTAGES
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• Biocompatibility– Water solubility
– High self producing rate of fluorescent dots
– Stability of colloidal particle
– Lower nonspecific adsorption
• Biological coupling– Unstable coupling after UV irradiation
• Biotoxicity– Aqueous environment release Cd ion
11
CHALLENGES
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• Many advantages
– Biochemistry
– Target molecule labeling
– Fluorescent probe
• High prospect to develop
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CONCLUSION
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