Nanoparticles, nanorods, nanowires

2/28/06 LaBean COMPSCI 296.5

Nanoparticles, nanocrystals,nanospheres, quantum dots, etc. Drugs, proteins, etc.

Nanorods, nanowires. Optical and electronic properties. Organization using biomolecules. Future possibilities.

Nanoparticles Materials: QDs, magnets, noble metals Synthesis

Reduction of metal salt Production of insoluble salt Micelle confinement Microbial production Biomolecular nucleation

Control of: composition, size, shape, crystalstructure, and surface chemistry.

Properties: Optical, electrical, physical,chemical

Nanoparticles, gold Synthesis

Reduction of metal salt

Nanoparticles, silver Light dependent synthesis

Nanoparticles, organization

QD Rainbow

Nanowires

ECD (dc, ac, pulsed) Polycrystalline wires (some single-crystal)

Pressure injection into template pores. Single-crystal wires

Co/Cu layers from one solution byswitching cathodic potential.

Nanowires

Templates anodic alumina (Al2O3), nano-channel glass,

ion track-etched polymers, and mica films. 10-200 nm diameter pores. CNT in templates and as templates.

a) Anodic alumina from acid anodized Al film to givehexagonal array of cylindrical holes. b) particle track-etched polycarbonate membrane.

Protein templates

(also CNT synth, catalyst)

Nanowires

VLS - vapor, liquid, solid Mechanism first proposed for single-crystal Si whisker

synthesis (molten Au catalyst). Anisotropic crystal growth.

Nanowire networks Alignment by flow in channels. Alignment on surface patterns.

Amine terminated lines.

Nanowire devices Doped wires, logic gates.

Nanowires More complex structures by growth. Organization of fully formed rods. Ordered growth.

Nanowires

Nanowires Annealing

NanoParticles andBiomolecular Address Labels

Nanoparticles, nanocrystals,nanospheres, quantum dots, etc.

DNA (protein) conjugation. Self-assembly using DNA (proteins). Optical and electronic properties. Future possibilities.

Conjugation strategies

Chemistry:Cyclic disulfides

Functional Group

Lipoic acid

Silanes

Maleimido

Simple NP-DNA Conjugates

Multiple DNA labels per NP. Remarkable spectroscopic

changes upon DNAhybridization.

Sharper dissociation curve.

Mirkin, C. A.; Letsinger, R. L.; Mucic, R. C.; Storhoff, J. J. Nature 1996,382, 607.Mucic, R. C.; Storhoff, J. J.; Mirkin, C. A.; Letsinger, R. L. "DNA-DirectedSynthesis of Binary Nanopartic le Network Materials," J. Am. Chem. Soc.1998, 120, 12674-12675.

Linked

Unlinked

Simple NP-DNA Conjugates

Mirkin, C. A.; Letsinger, R. L.; Mucic, R. C.; Storhoff, J. J. Nature 1996,382, 607.

NP Size variety

Mucic, Storhoff, Mirkin, Letsinger (1998) JACS 120, 12674-12675

Alivisatos

1:1 DNA:nanoparticleconjugates purified by PAGE.

Au NP stablized withdipotassium bis(p-sulfonatophenyl)phenylphosphane dihydrate.

Binary and ternarycomplexes made.

Undecagold

• 11 gold atoms• < 1 nm diameter• monofunctional

NP networks

NP protein

2909-2912

DX tile + 1.4 nm gold

TAE linear organizer

500x500 nm

Organization ofStreptavidin andGold with TAE LinearAssembly

H. Li, S- H. Park, J. H. Reif, T. H. LaBean, and Hao Yan,(2004) DNA Templated Self-Assembly of Protein andNanoparticle Linear Arrays, J. Am. Chem. Soc. 126, 418-419.

DNA Lattice Patterned 2D Nanoparticle Arrays Nanoparticle/oligonucleotide conjugate (1:1) 4x4 Tile array. Research challenge: compatible conditions

for solubility and assembly.

H. Li, S- H. Park, J. H. Reif, T. H. LaBean, and Hao Yan, (2004) DNATemplated Self-Assembly of Protein and Nanoparticle Linear Arrays, J.Am. Chem. Soc. 126, 418-419.

Remote control of H-bonding152-155

Here we demonstrate remote electronic control over the hybridization behavior of DNA molecules, byinductive coupling of a radio-frequency magnetic field to a metal nanocrystal covalently linked to DNA15.Inductive coupling to the nanocrystal increases the local temperature of the bound DNA, thereby inducingdenaturation while leaving surrounding molecules relatively unaffected. Moreover, because dissolvedbiomolecules dissipate heat in less than 50 picoseconds, the switching is fully reversible.

49 GHz = optimal1 GHz used

Nanorod building blocks 1

4354-4363

Metallic nanowires offer more control of surface chemistry, length, diameter, andtransport properties compared to CNT or semiconductor nanowires.

4354-4363

NP biosensor

Nanoparticles, nanorods, nanowires

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