March 28 - April 1, 2016
Phoenix, Arizona
2016 MRS Spring Meeting

Symposium SM8-Bioinspired Metal Nanoparticles—Synthesis, Properties and Application

Nanomaterials with a characteristic dimension in the range of 1-100 nanometers (nm) are at the leading edge of Nanoscience and nanotechnology. In recent years nanomaterials, and specifically metal nanoparticles, have received particular interest in diverse field ranging from material science to biotechnology (Guo et al. 2005, Daniel and Astruc 2004, Huang et al. 2007). Although widespread interest in nanomaterials is recent, the concept was introduced over 40 years ago. Nanomaterials have actually been produced and used by humans for hundreds of years: for example, the beautiful ruby red color of some glass is due to gold nanoparticles (AuNP) trapped in the glass matrix. In the decorative glaze known as luster, found on some medieval pottery, the special optical properties of the glaze arose from metallic spherical nanoparticles which were dispersed in the glaze in a random fashion. Michael Faraday in 1857 on his pioneering work “Experimental relations of gold (and other metals) to light” (Faraday, 1857) explain the properties of this glaze. Now with advances of science and technology, the morphology of this material, which contains metallic nanoparticles, has been understood. Because of extremely small size and high surface volume ratio of nanoparticles, the physicochemical properties of nanoparticles-containing materials are quite different to those of the bulk materials (El-Sayed 2001). Thus, nanomaterials have potential applications in electronics and photonics, catalysis, information storage, chemical sensing and imaging, environmental remediation, drug delivery and biological labeling (Guo et al. 2005, Daniel and Astruc 2004, Huang et al. 2007). It is well known that the optical, electronic, and catalytic properties of metal nanoparticles are greatly influenced by their size, shape, and crystal structure. For example, silver (Ag) and gold (Au) nanocrystals of different shapes possess unique optical scattering responses (Daniel and Astruc 2004, Roduner 2006). Whereas highly symmetric spherical particles exhibit a single scattering peak, anisotropic shapes such as rods, triangular prisms, and cubes exhibit multiple scattering peaks in the visible wavelengths due to highly localized charge polarizations at corners and edges (Mie 1908). Thus, synthesis of metal nanoparticles with defined morphology gained much interest. A variety of strategies have been developed for the synthesis of metal nanoparticles (MNPs) and nanomaterials. Optimizing the nanomaterials synthesis has now become a prolific area of investigation. This symposum will focus on the synthetic methods for MNPs production, with particular regard to biosynthesis in viable organisms and protein extracts. Also discussed will be the most recent finding on the biosynthetic mechanism, the properties of the nanobioconjugates, and recent applications of MNPs.

Topics will include:

  • Synthesis and Properties of metal nanoparticles
  • Applications of metal nanoparticles
  • Carbon and Silicon Fluorescent Nanomaterials
  • Green synthesis of metal nanoparticles using plants
  • Polymers and gels at the nanoscale
  • Polymer composites of nanowire/nanotube/graphene
  • Nanobatteries and nanogenerators
  • High-performance nanocomposite materials

Invited Speakers:

  • SM8_Bioinspired Metal Nanoparticles—Synthesis, Properties and Application _0 (University of Minnesota, Twin Cities, USA)
  • SM8_Bioinspired Metal Nanoparticles—Synthesis, Properties and Application _1 (Nanostructured Materials for Photovoltaic Energy, ICN2, Spain)
  • SM8_Bioinspired Metal Nanoparticles—Synthesis, Properties and Application _2 (Centre de Recherche en Technologie des Semi-conducteurs pour l'Energétique (CRTSE), Algeria)
  • SM8_Bioinspired Metal Nanoparticles—Synthesis, Properties and Application _3 (University of Washington, USA)
  • SM8_Bioinspired Metal Nanoparticles—Synthesis, Properties and Application _4 (University of Sassari, Italy)
  • SM8_Bioinspired Metal Nanoparticles—Synthesis, Properties and Application _5 (Max Planck Institute for Biophysical Chemistry, Germany)
  • SM8_Bioinspired Metal Nanoparticles—Synthesis, Properties and Application _6 (University of Cordoba, Spain)
  • SM8_Bioinspired Metal Nanoparticles—Synthesis, Properties and Application _7 (Dublin City University, Ireland)
  • SM8_Bioinspired Metal Nanoparticles—Synthesis, Properties and Application _8 (International Iberian Nanotechnology Laboratory Braga, Portugal)
  • SM8_Bioinspired Metal Nanoparticles—Synthesis, Properties and Application _9 (University of Santiago de Compostela, Spain)
  • SM8_Bioinspired Metal Nanoparticles—Synthesis, Properties and Application _10 (Centre de Recherche sur la Matière Divisée, France)
  • SM8_Bioinspired Metal Nanoparticles—Synthesis, Properties and Application _11 (San José State University, USA)

Symposium Organizers

Robert Chandler
San José State University
Department of Chemistry
USA

Nassera GHELLAI
URMER Laboratory, University of Tlemcen
Physics
Algeria

Raymond Meury
San José State University
Department of Chemistry
USA

Topics

adhesion adhesive Ag Al annealing atomic layer deposition attrition Au biofilm biological biological synthesis (assembly) biomaterial biomedical biomimetic (assembly) chemical composition chemical vapor deposition (CVD) (deposition) coating crystal crystal growth crystalline densification devices dielectric properties dispersant economics Education efficiency electrical properties electrodeposition electron irradiation electronic material electron-phonon interactions elemental energetic material energy storage environmentally protective epitaxy ethanol extrusion film flux growth grain size graphene infrared (IR) spectroscopy ink-jet printing kinetics laser ablation laser decomposition machining magnetic properties metal metallic conductor metalorganic deposition metrics metrology Mg microwave heating mixture Mn nano-indentation nanoscale neutron irradiation nucleation & growth optoelectronic organic organometallic oxide photoconductivity photoreflectance physical vapor deposition (PVD) plasma deposition plasma-enhanced CVD (PECVD) (deposition) plating polymerization powder metallurgy powder processing purification Raman spectroscopy rapid solidification rare-earths reactive ion etching scanning electron microscopy (SEM) scanning probe microscopy (SPM) scanning tunneling microscopy (STM) secondary ion mass spectroscopy (SIMS) simulation sintering spectroscopy spray deposition spray-drying standards structural surface chemistry surface enhanced Raman spectroscopy (SERS) texture thermal conductivity thermal stresses thermoelectricity thin film tissue transmission electron microscopy (TEM) transparent conductor water x-ray diffraction (XRD) x-ray reflectivity Zn zone melting