Nanomaterials via Single-Source Precursors

<p>Part 1: Synthesis and characterization of single source precursors<br>1. Precursor design and impact of structure on the fabrication of materials<br>2. Structural studies of main group organometallic single source precursors for MOCVD<br>3. Dithiocarbamate complexes containing the pyrrole moiety for synthesis of sulfides<br>4. Theoretical studies of gas-phase decomposition of single source precursors<br>Part 2: Processing of single-source precursors into materials<br>5. Semiconductor clusters and their use as single source precursors to nanomaterials<br>6. Chalcogenoethers as convenient synthons for low-temperature solutionphase synthesis of metal chalcogenide nanocrystals<br>7. Synthesis of lanthanide chalcogenide nanoparticles<br>8. Organometallic single-source precursors to zinc oxide-based nanomaterials<br>9. Nickel chalcogenide thin films and nanoparticles from molecular single-source precursors<br>Part 3: Single-source precursor-derived materials for energy conversion and catalysis<br>10. Group 15/16 Single-Source Precursors for energy materials <br>11. Single-source precursors for main group metal sulfides and solar cell applications<br>12. Fabrication and catalytic applications of first row-transition metal and mixed-metal chalcogenides synthesized from single-source precursors<br>13. Single-source heterometallic precursors to MOCVD PdCu alloy films for energy and catalysis applications<br>Part 4: Materials from single-source precursors: Applications and practical considerations<br>15. Zinc acetate amine complexes: Singlesource precursors to zinc oxide films and nanoparticles; the influence of amines on photocatalysis<br>16. Coinage metal chalcogenides via single-source precursors<br>17. Commercialization of single-source precursors: Applications, intellectual property, and technology transfer</p>