Nanocrystalline Oxides For Integrated, Soft Magnetic Applications D. R. Clarke (PI), UC Santa Barbara, DMR-0203785 The overall intellectual goal of the.

Slides:

Advertisements

Similar presentations

CAREER: The Stability and Influence of Metastable Retained Austenite During Fatigue of Advanced Steel Alloys Kip O. Findley, Colorado School of Mines,

Advertisements

National Science Foundation Electrical Degradation in Thin Layer BaTiO 3 : Microchemical Origins and Microstructural Control Clive A. Randall, Pennsylvania.

A Career in Physics and Astronomy Steven R. Spangler University of Iowa.

MICROWAVE SYNTHESIS OF MATERIALS

Dynamics of Localized Photoexcitations in Condensed Matter Systems Susan L. Dexheimer, Washington State University, DMR The localization of electronic.

Materials World Network: Self-assembled Nanocomposite Magnetoelectric Thin Films Nian Sun, Northeastern University, DMR Intellectual Merit:Fig.

Mott Transition, i.e., the interaction-driven metal-to- insulator transition (MIT), is a fundamental issue in the physics of strongly correlated electron.

When and why are ultrathin films of metallic oxides not metallic? Jiandi Zhang, Louisiana State University & Agricultural and Mechanical College, DMR

Science and Technology of Nano Materials

Research Objectives:Significant Results: Approach: Broader Impact: This is the second note Did this work? Grant Number: Collaborative effort between DMI

Synthesis and Magnetic Properties of Transition Metal Phosphides Stephanie L. Brock, Wayne State University, DMR According to general lore, the.

NSF GOALI Interactions of Plasmas/Energetic Beams with Organic Masking Materials G. Oehrlein, D. Graves and E. Hudson DMR Fig 1: Simplified schematic.

High-pressure synthesis of new oxide Dy 2 Ge 2 O 7 and high-pressure study on crystal and magnetic structures of the perovskite LaCrO 3 John B. Goodenough,

Nanotoxicology Impacts on humans and safety evaluation Π ΑΝΕΠΙΣΤΗΜΙΟ Κ ΡΗΤΗΣ Τ ΜΗΜΑ Ε ΠΙΣΤΗΜΗΣ Κ ΑΙ Τ ΕΧΝΟΛΟΓΙΑΣ Υ ΛΙΚΩΝ.

CAREER: The Stability and Influence of Metastable Retained Austenite During Fatigue of Advanced Steel Alloys Kip Findley, Colorado School of Mines, DMR.

FRG: M n+1 AX n Phase Solid Solutions: Unique Opportunities at Engineering Bulk and Surface Properties Micheal W. Barsoum, Drexel University, DMR

NANOTECHNOLOGY Hyo Be Park 12C Chemistry Option C-7.

What is SEMI High Tech U? A fun, interactive experience for students and teachers that exposes them to potential careers in the semiconductor and microelectronics.

Two State Lipid-Protein Bio-Nanotubes with Open and Closed Ends C. R. SAFINYA, UC Santa Barbara, DMR The electrostatic interactions between Microtubules.

National Science Foundation Moving Telecommunications Forward Rick Ubic, Boise State University, DMR Outcome: Researchers at University of Illinois.

Sridhar Seetharaman Carnegie Mellon University Department of Materials Science and Engineering Pittsburgh, PA Development of a High Temperature.

Application of the Electrothermal Average Inductor Model for Analyses of Boost Converters Krzysztof Górecki, Janusz Zarębski, Kalina Detka Gdynia Maritime.

Controlling the Curie temperature in the ferromagnetic semiconductor (Ga,Mn)As through location of Fermi level in the impurity band Margaret Dobrowolska,

Understanding the chemical origins of half-metallic ferromagnetism Ram Seshadri, UC Santa Barbara, DMR Half-metallic ferromagnets are a class of.

High K Films: Organic Field Effect Transistors Using Self Assembled Barium Titanate Nanoparticles Stephen P. O’Brien, Columbia University, DMR

Nano-electronics Vision: Instrumentation and methods for analysis of atomic scale physical properties, and methods to correlate these properties with nano-electronic.

Determining Chemical Order Parameter from Small Volumes Gregory B. Thompson, University of Alabama Tuscaloosa, DMR Intellectual Merit Ta enrichment.

Friction Laws for Dry Nanoscale Contacts Izabela Szlufarska (University of Wisconsin - Madison) DMR How does friction force depend on applied load.

DMR : Dynamics of Layered, Multifunctional Systems with Evolving Structure Industrial Partner: GE Global ResearchNSF Focused Research Group/GOALI.

Static Granular Packings: Contact Forces and Geometry by Experiment and Model Anthony D. Dinsmore, University of Massachusetts Amherst, DMR Soft.

New Intercalation Materials Objectives: Synthesize new host structures for intercalation reactions and identify the key parameters for new structure formation.

Structure-Function-Property Relationships in Charged Conjugated Polymers (CCPs) Thuc-Quyen Nguyen DMR  The aim of this project is to understand.

Fuel Cell Electrode Properties Relva C. Buchanan, University of Cincinnati Main Campus, DMR Thin film materials with properties suitable for fuel.

National Science Foundation Mechanical Forces That Change Chemistry Brian W. Sheldon, Brown University, DMR Outcome: Research at Brown University.

Self-Assembled Nanoparticle Array for Spintronics and High Frequency Materials DMR PI: Hao Zeng W.L. Shi, Y. Sahoo and Hao Zeng, et al., “Anisotropic.

We have created carbon nanotube (CNT) aerogels that can support thousands of times their own weight. An aerogel is an ultra-low density, highly-porous.

Research: Transition-metal oxides are multi-functional materials with potential novel applications in micro-electronics and information processing and.

A.L.F. Enterprise n Electrical Parameters Measurement Component (EPMC) n Boris Fradkin ©A.L.F.Enterprise Boris Fradkin.

Fundamentals of Density Functional Theory Santa Barbara, CA Walter Kohn Physics-Chemistry University of California, Santa Barbara

Correlated Electron State in Ce 1-x Yb x CoIn 5 Stabilized by Cooperative Valence Fluctuations Brian M. Maple, University of California, San Diego, DMR.

Deposition of hexagonal ferrites by the ATLAD technique - gateway to new and exotic ferrite materials Carmine Vittoria, Northewestern University, DMR

Award Title: M n+1 AX n Phase Solid Solutions: Unique Opportunities at Engineering Bulk and Surface Properties Michel W. Barsoum, Drexel University, DMR.

Understanding the chemical origins of half-metallic ferromagnetism Ram Seshadri, UC Santa Barbara, DMR Research: Half-metallic ferromagnets are.

Strong, Ductile and Low-Field Magnetostrictive Alloys Based on Fe-Ga Sivaraman Guruswamy, University of Utah DMR Technical and Scientific Impact.

Intellectual merit The goal of this project is to study the biomimetic properties of inorganic metal oxide nanoparticles in relation to their physicochemical.

Dynamics of Localized Photoexcitations in Condensed Matter Systems Susan L. Dexheimer, Washington State University, DMR Localization of electronic.

Synthesis and Properties of Magnetic Ceramic Nanoparticles Monica Sorescu, Duquesne University, DMR Outcome Researchers at Duquesne University.

Bulk Hybridization Gap and Surface Conduction in the Kondo Insulator SmB 6 Richard L. Greene, University of Maryland College Park, DMR Recently,

MIXED-VALENT TRANSITION METAL OXIDES Mas A. Subramanian, Oregon State University, DMR This is an exploratory research project on the design, synthesis.

Magnetic Moments in Amorphous Semiconductors Frances Hellman, University of California, Berkeley, DMR This project looks at the effect of magnetic.

Tunable Electron-Phonon Coupling in Carbon Nanotubes Moonsub Shim, University of Illinois, DMR EFEF K. Nguyen, A. Gaur, & M. Shim, Phys. Rev. Lett.

CAREER: Position-Controlled Doping of Semiconductor Nanocrystals Y. Charles Cao, University of Florida, DMR Doping refers to the process of intentionally.

Broader Impact: Education The PI’s group moved from NCSU to OSU as this renewal was just beginning. Dr. Marcin Wachowicz began as a postdoctoral fellow.

The Application Of Electron Backscatter Diffraction To The Study Of Special Boundaries In Polycrystalline And Nanocrystalline Nickel Farghalli A. Mohamed,

Multi-Scale Modeling of Co-Fired Ceramics' Fabrication Eugene Olevsky, San Diego State University Foundation, DMR A multi-scale framework for the.

“Smart” Adhesion: Controlling Polymer Interfaces with Patterns Alfred J. Crosby, University of Massachusetts, DMR Nature has shown through examples.

Spin at the Nanoscale: Material Synthesis and Fundamental Physics Min Ouyang, University of Maryland – College Park, DMR In the FY08, we continued.

Exploiting Protein Cage Dynamics to Engineer Active Nanostructures Brian Bothner, Trevor Douglas, Ives U Idzerda, and Mark J Young 2007 NIRT Montana State.

Complex nanostructures promise to provide a platform for dramatically increasing the efficiency of solar energy conversion into the power and fuels needed.

Acquisition of major research instrumentation for advanced photoelectron spectroscopy with spin, angle and spatial resolution Acquisition of major research.

National Science Foundation Outcome: Researchers at the University of Florida have directly measured the mechanism that creates frequency-dependent material.

The Different Types of Inductors and Their Affecting Factors

First-Principles Based Prediction of High-Temperature Defect Chemistry and Conductivity of TiO 2 Elizabeth C. Dickey, Pennsylvania State Univ University.

Thomas Ihle and Daniel Kroll, North Dakota State University DMR and DMR Mesoscale Simulations of Complex Liquids Computational studies.

© 2016 Global Market Insights, Inc. USA. All Rights Reserved Copper Oxide Nanomaterials Market Price Trends Industry Outlook & Forecast.

College Success Services

Single-molecule transistors: many-body physics and possible applications Douglas Natelson, Rice University, DMR (a) Transistors are semiconductor.

Carmine Vittoria, Northewestern University, DMR

NSF NSEC Grant DMR PI: Dr. Richard W. Siegel

BAND GAP ENGINEERING Trends in cubic UC parameters and Eg As a function of composition x for the solid solution ternary semiconductor AlxGa1-xAs.

Presentation transcript:

Nanocrystalline Oxides For Integrated, Soft Magnetic Applications D. R. Clarke (PI), UC Santa Barbara, DMR The overall intellectual goal of the research has been to determine whether, and under what conditions, nanoparticles of magnetic oxides can be used to improve the performance of dc-dc power converters. These are common magnetic devices used in providing low voltage power to computers and microelectronic devices from standard household electrical power lines. Methods of synthesizing large quantities of high quality ferrite nanoparticles with well defined particle size over a wide range of composition have been developed. Magnetic measurements indicate that they have the low losses and high magnetic permeability required for fabricating high frequency dc-dc power converters. As the end of the grant period is approached, a variety of processes been developed for assembling the nanoparticles into components and shapes that can now be tested under realistic application conditions. In contrast to most other studies of nanoparticles, which is restricted to the unique properties of the particles themselves, the significance of the work is in extending it to bulk, assemblages of nanoparticles with a view to substituting for existing materials with improved performance. During the course of the research several surprising scientific discoveries during the research have been made that have broader impact as described in the next foil. The research is a collaborative GOALI program with Rockwell Scientific, a manufacturer of power converters.

Nanocrystalline Oxides For Integrated, Soft Magnetic Applications – Broader Impact D. R. Clarke (PI), UC Santa Barbara, DMR In studying nanoparticles in the Ni-Zn ferrite system, it has been discovered that the lattice parameters of the nanoparticles are systematically larger, over the entire solid solution range, than those of the bulk material. Furthermore, there is a direct correlation between this lattice expansion and the difference in saturation magnetization of the nanoparticles from that of the bulk material. The origin of the lattice expansion appears to be a direct consequence of the truncated, and hence reduced, Coulombic interaction between ions in oxides associated with the small number of ions in a nanoparticle. The implication is that this is a fundamental characteristic of all oxide nanoparticles, not just magnetic oxides, which may influence many of their properties. Exciting though this is, undoubtedly, the biggest impact of the research has been the education and training of the graduate students supported by the program, Brian Naughton and Jenny Andrews. In turn, they have had an impact on high-school and undergraduate education by mentoring a high school student, a high school teacher, a community college student and several undergraduates. Interactions with the GOALI partner have also given the graduate students an opportunity to regular visits and make measurements in a vibrant and exciting industrial research laboratory.