welcome to mse ucla
play

Welcome to MSE @ UCLA Engineer Change. Materials Science and - PowerPoint PPT Presentation

Welcome to MSE @ UCLA Engineer Change. Materials Science and Engineering Bruce Dunn, Ph.D. Professor and Chair, Materials Science and Engineering Discover UCLA Engineering - Materials Science and Engineering Bruce Dunn Ioanna Kakoulli Jaime


  1. Welcome to MSE @ UCLA Engineer Change. Materials Science and Engineering Bruce Dunn, Ph.D. Professor and Chair, Materials Science and Engineering

  2. Discover UCLA Engineering - Materials Science and Engineering Bruce Dunn Ioanna Kakoulli Jaime Marian Suneel Kodambaka Ya-Hong Xie Professor and Chair Professor Professor Professor Professor and Vice-Chair Catherine Barrie Megan Bokhoor Rayna Mehta Seth Siegel Thomas Tran Garret May Meredith Claire Shen Annie Zhao Sanderson Current Student Current Student Current Student Current Student Current Student Current Student Current Student Current Student Current Student James Washington James Barrie Makena White Jan LaBuda Tiffany Tsao Academic Counselor Alumni Alumni Director, Academic and Alumni Student Affairs

  3. Discover Engineering --- MSE Sessions Materials Science and Engineering 10-10:30am - Faculty 10:30-11am - Current Students 11-11:30am - Alumni 11:30am-12pm - Breakout Sessions Questions: Use the Q & A function at any time or At the end of the presentation, use the Raise Hand function

  4. MSE @ UCLA Materials Science and Engineering • MSE Program Objectives – Behavior, synthesis and application of materials – Interdisciplinary integration of science and engineering – Materials Engineering and Electronic Materials options • Highly ranked with thriving undergraduate program – Low student–faculty ratio with active student groups – Undergraduate research opportunities – New building and laboratories for undergraduate education

  5. Materials Science and Engineering So what does a Materials Engineer do? Process materials Improve properties of materials Determine and tailor the structure of materials Materials Science helps:  Create new materials  Optimize the production of materials  Understand how and why materials fail/succeed  Improve sustainability The field of materials is broad and rich: Metals, Ceramics, Polymers, Semiconductors, Composites, Biomaterials, Nanomaterials…

  6. What do MSE Students Learn? Materials Science and Engineering Advanced Materials Aerospace, Biomedical, Sports Energy Related Materials • LEDs • Photovoltaics • Batteries, Supercapacitors

  7. Coming Soon! Materials Science and Engineering Ultra High Strength Metals Smart Clothes Flexible Electronics

  8. So Some me MSE MSE Detail ils s Materials Science and Engineering Undergraduate Students: 125; ~30/year  Class size: 15 to 35 students  Faculty advisor: meet once each quarter  Graduate Students: 225  Research Funding: ~$10 M/yr   Research Opportunities for Undergraduates  199 courses  Summer and Industry Internships MSE Scholarships   Eric Pascal Bescher Scholarship; Lee Family Scholarship  Harley L. Wood Scholarship; Knapp Scholarship;  Goldsworthy Scholarship; Knesel Scholarship; Boeing;  Boeing Scholarship; Mackenzie Scholarship; Ching Chiao Tu Scholarship Active student professional society groups 

  9. Current Status Materials Science and Engineering Faculty = 15 and growing First L AST N AME e-mail address Research focus M OSLEH Ali mosleh@ucla.edu Reliability; Risk analysis Banerjee Amartya asbanerjee@g.ucla.edu Computational materials science Chair → D UNN Energy storage Bruce bdunn@ucla.edu S TREIT Dwight streit@ucla.edu Power electronics K AKOULLI Forensic archaeology Ioanna kakoulli@ucla.edu Computational mechanics of M ARIAN Jaime jmarian@ucla.edu materials Y ANG Jenn-Ming jyang@seas.ucla.edu Composites; structural materials G OORSKY Mark goorsky@seas.ucla.edu Photovoltaics V. Chair → Heterogenous catalysis; H UANG Yu yhuang@seas.ucla.edu Nanoelectronics P EI Qibing qpei@seas.ucla.edu Variable stiffness materials Raman Aaswath aaswath@ucla.edu Metamaterials, nanophotonics 2D layered materials; Ultra- K ODAMBAKA Suneel kodambaka@ucla.edu tough ceramics HE Ximin ximinhe@ucla.edu Bio-inspired materials V. Chair → X IE Nanoelectronics; Biosensors Ya-Hong yahong.xie@gmail.com Y ANG Yang yangy@ucla.edu Organic & inorganic Photovoltaics

  10. Archaeomaterials Research Group & Molecular and Nano Archaeology Laboratory https://archaeomaterialsgroup.wordpress.com/ EDUCATION Dr. Ioanna KAKOULLI DPhil (Ph.D.), University of Oxford, UK Professor, UCLA Department of Materials Science Materials Science (archaeological materials and Engineering science) Professor, UCLA Conservation IDP (joint M.Sc. University of London appointment) Materials Chemistry and Conservation Adjunct Professor, University of Cyprus

  11. Characterization of materials: Macroscale multimodal imaging spectroscopy 1800 year’s old painting HSI endmember spectra XRF Elemental Mapping and chemical mapping Pb Lα1 Fe Kα1 Ca Kα1 RGB K Kα1 Cu Kα1 Fe Cu K Fayum portrait: NGA, Washington DC

  12. Characterization of Materials: Micron and sub-micron scale Ancient Chinese ceramic bead using SEM, SR-uXRF, and STEM FIB prepared thin section Sampling area Pb- rich CB BaCuSi 4 O 1 0 Quartz BSE-SEM SR-µXRF elemental mapping Zone axis: [001] 5.333 Å 200 4.246 Å Yuan Lin, Reconstruction of Ancient Production Technology of Chinese Blue Pigment and Synthesis of Chinese Blue Nanoscrolls as a Novel Optical Material, Ph.D. Thesis, Materials Science and Engineering, UCLA 2018.

  13. Research 5 Scientific Pursuits Archaeological Forensics Ancient Technology Conservation Science & Human Agency & Archaeo-inspired materials Biocultural Conservation the Environment Identification of diagnostic Reverse engineering Design of novel materials markers for authentication Production technology Synthesis of materials and inspired by ancient and provenance applications to preserve technology cultural and natural heritage Hydroxyapatite crystals The Canosa Case Special Agent, DHS Chinese Blue Mummified Human remains, Model of 3D printed artificial Graeco-Roman portrait, NIR luminescent nanoscrolls Chile coral for marine rehabilitation The Walters Art Museum

  14. Teaching Knowledge Transfer & Outreach Study Abroad Program) for 10-12 Units on “Ancient Technology, Materials and Forensics • Transforming STEM (Science, Technology Engineering and Mathematics) into STEAM adding (Arts). • Developing scientists for a global society with strong scientific skills integrated with social and humanistic methodologies. • Promotes diversity in STEM fields. • Community outreach through museums, science fairs and specialized workshops • MAT SCI 33 - Materials Structure and and presentations with hands-on activities. Technology in Archaeology and Architecture (MST-A 2 ) • MAT SCI 13L - Cultural [Materials] Science Investigations in Art and Archaeology (CSI-A 2 )

  15. Prof. Jaime Marian Department of Materials Science and Engineering Department of Aerospace and Mechanical Engineering UCLA jmarian@ucla.edu Ph: 310-206-9161 http://jmarian.bol.ucla.edu UCLA Communications & Public Outreach • 1147 Murphy Hall, Box 951436 • Los Angeles, CA 90095-1436

  16.  In modern science there are many examples of conditions that cannot be accessed experimentally (conditions inside stars, earth’s inner mantle and core, nuclear processes, structure of microorganisms, etc.)  Our aim is to use materials theory and simulation to open windows into these processes.  Our models must be continuously validated, benchmarked, and contrasted to experimental data.  The future of science cannot be understood with modeling and simulation 16

  17.  Instructor in charge of the mechanical behavior curriculum with MSE:  Two undergraduate courses  MS 143 A: Mechancial Behavior of Materials  MS 132 : Structure and Properties of Metallic Alloys  Two graduate courses:  MS 243 C: Dislocations and Strengthening Mechanisms in Solids  MS 270 : Computational Modeling of Materials 17

  18. • We develop computational models to understand materials behavior under extreme conditions. • We use a multiscale approach, different techniques at different time and length scales. 18

  19.  We study what controls the strength of nanotwinned metals 19

  20. Sandoval, Reina, Marian, Scientific Reports (2015) 20

  21. • Archaea survive in extreme environments of high temperatures, salinity, or acidity. • They are infected by archaeal viruses: exotic variety of single and double stranded DNA viruses • The properties of the capsid determine the amount of DNA packed in the viruses, their motility, and their vulnerabilities 21

  22. Suneel Kodambaka Professor Materials Science and Engineering Email: kodambaka@ucla.edu

  23. My Background  Joined UCLA in 2007  B.Tech., in Metallurgical Engineering Indian Institute of Technology, Madras, India  M.S. – Southern Illinois University at Carbondale, IL  Ph.D. – Univ. Illinois Urbana-Champaign, IL  Post-doctoral research: IBM T.J. Watson Research Center, Yorktown Heights, NY

  24. Research Interests  In situ characterization of materials synthesis  Thin films  2D layered materials  Nanomechanics of ceramic materials

  25. Teaching & Service  Freshman Seminar  Introductory laboratory on measurements  Principles of Nanoscience and Nanotechnology  MSE representative for  Diversity  Undergraduate Council  ABET (2013-18)  Undergraduate Vice Chair (2013-18)

Recommend


More recommend