American Elements: Decanethiol Functionalized Silver Nanoparticles Solution Supplier & Tech Info

Decanethiol Functionalized Silver Nanoparticles Solution

SCH₂(CH₂)₈CH₃

Product	Product Code	Order or Specifications
99% Decanethiol Functionalized Silver Nanoparticles Solution	AG-HEX-02-FNPD
99.9% Decanethiol Functionalized Silver Nanoparticles Solution	AG-HEX-03-FNPD
99.99% Decanethiol Functionalized Silver Nanoparticles Solution	AG-HEX-04-FNPD
99.999% Decanethiol Functionalized Silver Nanoparticles Solution	AG-HEX-05-FNPD

Decanethiol Functionalized Silver Nanoparticles Solution typically has 1-10 nm particle size ((90%)) and 0.1 - 0.25% (w/v) in hexane. Decanethiol Functionalized Silver Nanoparticles Solution are available through the AE Nanofluid production group. Nanofluids are generally defined as suspended nanoparticles in solution either using surfactant or surface charge technology. Nanofluid dispersion and coating selection technical guidance is also available. Other nanostructures include nanorods, nanowhiskers, nanohorns, nanopyramids and other nanocomposites. Development research is underway in Nano Electronics and Photonics materials, such as MEMS and NEMS, Bio Nano Materials, such as Biomarkers, Bio Diagnostics & Bio Sensors, and Related Nano Materials, for use in Polymers, Textiles, Fuel Cell Layers, Composites and Solar Energy materials. Nanopowders are analyzed for chemical composition by ICP, particle size distribution (PSD) by laser diffraction, and for Specific Surface Area (SSA) by BET multi-point correlation techniques. Novel nanotechnology applications also include Quantum Dots. High surface areas can also be achieved using solutions and using thin film by sputtering targets and evaporation technology using pellets, rod and foil. Research into applications for Functionalized Silicon Nanoparticle Dispersions include self assembly, drug delivery, nanopatterning, nanofabrication, nanosensors, pigments, LEDs, bioprobes, and photocatalysis. Decanethiol Functionalized Silver Nanoparticles Solution are generally immediately available in most volumes. Additional technical, research and safety (MSDS) information is available.

Silver is a Block D, Group 11, Period 5 element. The electronic configuration is [Kr]4d¹⁰5s¹. In its elemental form silver's CAS number is 7440-22-4. The silver atom has a radius of 144.5.pm and it's Van der Waals radius is 144.pm. Silver has a brilliant white metallic luster. It is a little harder than gold and is very ductile and malleable, being exceeded only by gold and perhaps palladium. Pure silver has the highest electrical and thermal conductivity of all metals, and possesses the lowest contact resistance. It is stable in pure air and water, but tarnishes when exposed to ozone, hydrogen sulfide, or air containing sulfur.

Formula	CAS No.	Appearance	Density
SCH₂(CH₂)₈CH₃		Colorless Solution	0.672 g/mL at 25 °C

PRODUCT CATALOG

Silver Products

Submicron & Nanopowder

Ultra High Purity

Sputtering Target

Rod, Plate, Powder, etc.

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Recent Research & Development for Nanoparticles

Nanoparticles in Medicine: Therapeutic Applications and Developments. Clin Pharmacol Ther. 2007 Oct 24; [Epub ahead of print]

The formation of nanoscale structures in soluble phosphosilicate glasses for biomedical applications: MD simulations. Faraday Discuss. 2007;136:45-55; discussion 107-23.

Microwave-accelerated metal-enhanced fluorescence: an ultra-fast and sensitive DNA sensing platform. Analyst. 2007 Nov;132(11):1122-9. Epub 2007 Sep 11.

Gas sensors based on nanostructured materials. Analyst. 2007 Nov;132(11):1083-1099. Epub 2007 Sep 18.

Novel Arylhydrazone-Conjugated Gold Nanoparticles with DNA-Cleaving Ability: The First DNA-Nicking Nanomaterial. Bioconjug Chem. 2007 Oct 23; [Epub ahead of print]

Stability and Adsorption Properties of Electrostatic Complexes: Design of Hybrid Nanostructures for Coating Applications. Langmuir. 2007 Oct 20; [Epub ahead of print]

Use of the Interparticle i-Motif for the Controlled Assembly of Gold Nanoparticles. Langmuir. 2007 Oct 19; [Epub ahead of print]

Surface-potential heterogeneity of reacted calcite and rhodochrosite. Environ Sci Technol. 2007 Sep 15;41(18):6491-7.

Controlled Bioactive Nanostructures from Self-Assembly of Peptide Building Blocks. Angew Chem Int Ed Engl. 2007 Oct 19; [Epub ahead of print] No abstract available.

Nanostructure analysis using spatially modulated illumination microscopy. Nat Protoc. 2007;2(10):2640-6.

Deposition of controlled thickness ultrathin SnO2:Sb films by spin-coating.
J Nanosci Nanotechnol. 2006 Dec;6(12):3849-53.

Self-assembly of tin oxide nanoparticles: localized percolating network formation in polymer matrix.
Langmuir. 2006 Oct 24;22(22):9260-3.]

Control of the electrical conductivity of composites of antimony doped tin oxide (ATO) nanoparticles and acrylate by grafting of 3-methacryloxypropyltrimethoxysilane (MPS).
J Colloid Interface Sci. 2006 Dec 15;304(2):394-401. Epub 2006 Sep 7.

Ultrafast electron transfer between molecule adsorbate and antimony doped tin oxide (ATO) nanoparticles.
J Phys Chem B Condens Matter Mater Surf Interfaces Biophys. 2005 Apr 21;109(15):7095-102.

Nanoscale zinc antimonides: synthesis and phase stability.
Inorg Chem. 2006 Feb 20;45(4):1693-7.

Aqueous latex/ceramic nanoparticle dispersions: colloidal stability and coating properties.
J Colloid Interface Sci. 2004 Dec 15;280(2):387-99.

Nonlinear responses of electronic-excitation-induced phase transformations in GaSb nanoparticles.
Phys Rev Lett. 2004 Apr 2;92(13):135501. Epub 2004 Mar 29.

Surface modification of oxidic nanoparticles using 3-methacryloxypropyltrimethoxysilane.
J Colloid Interface Sci. 2004 Jan 1;269(1):109-16.

Sonochemical preparation of GaSb nanoparticles.
Inorg Chem. 2002 Feb 25;41(4):637-9.

Ultrastructural changes in parasites induced by nanoparticle-bound pentamidine in a Leishmania major/mouse model.
Parasite. 1997 Jun;4(2):133-9.

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