Takeuchi, Ichiro
Fellow, APS
Fellow, Japan Society of Applied Physics
Maryland Energy Innovation Institute
EDUCATION
Ph.D., University of Maryland, College Park, 1996
B.S., Caltech, 1987
HONORS AND AWARDS
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NIST Distinguished Associate Accolade, Materials Measurement Laboratory (2021)
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Elected International Fellow, Japan Society of Applied Physics (2020)
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Distinguished Scholar - Teacher, University of Maryland (2018)
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Senior Faculty Research Achievement Award, School of Engineering, University of Maryland (2018)
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Elected APS Fellow (2011)
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Invention of the Year Award, Physical Sciences Category, University of Maryland (2011)
- Visiting Associate Professor, Institute for Solid State Physics, University of Tokyo, Kashiwa, Japan (4/2007—8/2007)
- Fellow by Special Appointment, Japan Science and Technology Agency (2007)
- Visiting Associate Professor, Applied Ceramics Laboratory, Tokyo Institute of Technology, Yokohama, Japan (6/2004—3/2005)
- NSF CAREER Award (2001)
- Office of Naval Research, Young Investigator Program Award (2000)
- Oak Ridge Associated Universities Ralph E. Powe Junior Faculty Enhancement Award (2000)
- General Research Board Semester Research Award, University of Maryland (2000)
- Associated Western Universities Postdoctoral Research Fellowship (1996-1999)
- National Center for Electron Microscopy Visiting Scientist Fellowship, Lawrence Berkeley National Laboratory (1999)
PROFESSIONAL MEMBERSHIPS
- American Physical Society
- Materials Research Society
- TMS
Applications of combinatorial synthesis and characterization methodology to electronic, magnetic and smart materials; fabrication and characterization of novel multilayer thin-film devices; machine learning for materials science, caloric cooling materials and devices
Combinatorial Investigation of Functional Materials
We have developed a comprehensive methodology for rapid mapping of previously unexplored compositional landscape in search of novel multifunctional materials. A variety of thin film deposition tools are implemented for synthesis of combinatorial thin film libraries and composition spreads of various designs. A suite of rapid characterization tools are utilized for quantitative mapping of relevant physical properties across combinatorial libraries. These include microwave microscopes, a scanning magneto-optical Kerr measurement setup and scanning x-ray diffractometers. Current topics of interest include magnetistrictive materials, multiferroic materials, and shape memory alloys. Our recent emphasis has also been on development of informatics techniques to effectively handle, visualize, and analyze the large amount of data which are generated from the combinatorial experiments. We have a network of international collaborators with whom a number of combinatorial experiments are carried out at any given time.
Learn more about combinatorial materials science
- See also:
Novel Multilayer Thin Film Devices
Previously I had worked on fabrication and characterization of superconducting thin film devices for over 10 years. My interest in novel functional devices now spans a range of other materials including magnetic materials and various smart materials. Our current projects include various multilayer multiferroic devices.
Scanning Probe Microscopy
Many of the rapid characterization tools used for screening combinatorial libraries are scanning probe microscopes. For instance, we work extensively with scanning SQUID microscopes (in collaboration with Neocera, Inc.) and scanning microwave microscopes. We have recently demonstrated high sensitivity scanning magnetic probe microscopy using a magnetoelectric device. Our current project includes development of novel microwave microscopy combined with atomic resolution STM for performing spin resonance measurements.
Current and Recent Group Members Include:
- A. Gilad Kusne (NIST)
- Valentin Stanev
- Xiaohang Zhang
- Tieren Gao
- Heshan Yu
- Rohit Pant
Graduate Students
- Jihun Park
- Haotong Liang
- Felix Adams
- Chih-Yu Lee
- Ricmond Wang
- Boyang Liu
- Thomas Wong
- Logan Saar
- Dylan Kirsch
- Samuel Freed
- Sabrina Curtis
- Justin Pearson
Undergraduate Students
ENMA 460/PHYS 431 Introduction to Solid State Physics
ENMA 437/637 Machine Learning for Materials Science
ENMA 481 Electronic and Optical Materials
ENMA 465 Microprocessing
Publications list
For a closer look at our research, take a look at the video links below:
- Made of Star Stuff - PhD Student Justin Pearson, advised by Prof Takeuchi, discusses his thin film research.
- Robot (Materials) Science: Can Watson Beat Edison?
- Combinatorial Time Lapse
- Dwight Quench: We have developed a technique where an entire thin film on a wafer can be quenched from a high temperature. In the movie, a thin-film composition spread wafer mounted inside a narrow high-vacuum chamber pumped by a cryopump is annealed in a furnace at 800 C. For quenching the wafer, it is “quickly” pulled out of the furnace, and the chamber is dunked in an ice bucket. This results in formation of quenched thin film phases as reported in Ref. 102, Applied Surface Science 254, 725 (2007) and Ref. 147, Nature Communications 2, 518.
- FeCoNi XRD contourslices-2: Visualization of X-ray diffraction patterns from the entire Fe-Co-Ni composition spread. The big triangular shaped blob corresponds to the main fcc peak showing significant shift as a function of composition. The thin oval blob near the Fe end is the bcc main peak. Shown on the cover of Ref. 95.
- IchiroCombi with Targets: Combinatorial pulsed laser deposition of epitaxial oxide thin films. The movie shows the synthesis process of an epitaxial composition spread onto a heated substrate. Two targets (with end compositions) are used to deposit alternating ultrathin gradient thickness wedges using a synchronized moving shutter gliding over the substrate. The thickness of the wedge is designed to be less than a unitcell. The deposition of hundreds of wedges results in mixing of the end compositions at the unitcell level during the deposition at an elevated temperature. The composition continuously varies on the substrate from one end composition to the other. Each composition spread sample is roughly 7-10 mm long. This technique is used for continuous substitution experiments. See for instance, Ref. 71,72, 85, 100.
- XRDSuite: demo of early combinatorial X-ray diffraction data visualization and analysis tool. One can see a large number of diffraction patterns in a number of different ways.
- NiMnAl – Sepctrum Scroller: Another demo movie of XRDSuite.
- NiMnAl – Peak Plotter (Full Spectrum with Mag): Comparison of diffraction patterns of Ni-Mn-Al composition spread and magnetism. With one look, one can see which diffraction peaks (and phases) are responsible for the composition regions with strong remnant magnetization (measured by scanning SQUID).
- Demo of CombiView: software to carry out rapid visualization and cluster analysis of a large number of diffraction patterns taken from combinatorial libraries.
Maryland Engineering and Partners Win $26M to Develop Better HVACR Systems and Fight Climate Change
Clark School faculty and partners join prestigious U.S. National Science Foundation Engineering Research Center.Maryland Public Television Highlights UMD Research on Groundbreaking Cooling Technology
Researchers are developing an innovative, climate-friendly solutionElastocalorics named 1 of 10 emerging technologies addressing global challenges
The World Economic Forum lists most impactful technologiesCarlos A. Ríos Ocampo To Attend NAE’s Frontiers of Engineering Symposium
The assistant professor joins other symposium alums from UMD as one of 76 distinguished early career scientists.Ichiro Takeuchi Elected Fellow of the Materials Research Society
The professor becomes the second in the department to earn this lifetime distinction.LEGOLAS participates at U.S. Senate Robotics Showcase on Capitol Hill
UMD engineers demonstrate their autonomous robot science kitSeven Current and Former Maryland MSE Students to Attend 73rd Lindau Nobel Laureate Meeting
The scholars will travel to Lindau, Germany in late June for a week-long discussion spanning the future of physics.Reflecting on 20 Years of Excellence and Innovation
Materials Science and Engineering celebrated its anniversary on November 7, 2023.MSE Research Featured on National News Network
Ichiro Takeuchi and Liangbing Hu discuss research innovations at The Circuit News.$2M NSF Grant to Advance Future of Semiconductors Technology and Workforce
UMD Researchers Will Work to Discover New Materials to Safeguard Nation’s Supply of Crucial Tech HardwareElastocaloric Cooling System Developed by Clark School Faculty Featured in Science
Greener Approach to Refrigeration DevelopedCrank Up the AC, Not Global Warming
Maryland engineers advance heating and cooling technology to push for a greener futureTen Maryland MSE Faculty Members Ranked in Top 2% of World Scientists
Elsevier releases updated science-wide databaseUMD and NIST develop LEGO-based robots for teaching artificial intelligence
LEGOLAS kit offers autonomous experimentation and learningMaterials, physics, and systems for multicaloric cooling
UMD’s Ichiro Takeuchi published in Nature Reviews MaterialsInternational research team sheds light on inner workings of unconventional superconductors
Study by UMD Materials Science Prof. Ichiro Takeuchi published in Nature.Takeuchi Wins $488K DURIP Award
The funding will be used to purchase a novel PLD system for use in the UMD Nanocenter.Eric Marksz Awarded Charles A. Caramello Distinguished Thesis Award
Marksz will be honored at a virtual ceremony in May.UMD-NIST Self-Directing AI System Discovers New Material
‘CAMEO’ identifies a new compound that’s useful for photonic devices and next generation computers.ARL to Fund $30M in Equipment Innovations for Service Members
UMD announces with the U.S. Army Research Lab agreements in additive manufacturing and battery research.UMD Engineering Receives $22.8M from U.S. Army to Collaboratively Advance Additive Manufacturing Technology
The University of Maryland College Park's research partnership with the U.S. Army Research Laboratory will establish an ecosystem for revolutionary additive manufacturing technology and concepts to expedite national readiness and response.Ichiro Takeuchi Named Fellow of the Japan Society of Applied Physics
The JSAP Fellow International Award recognizes significant contributions of scientists who reside outside of Japan.UMD receives two new DOE Building Technologies awards
Takeuchi and Aute to lead projectsAdditive Manufacturing and Ni-Ti Metal Bolster Cooling Technology
UMD’s Ichiro Takeuchi and team published in Science.The Future of Cool: Additive Manufacturing and Ni-Ti Metal Bolster Cooling Technology
UMD’s Ichiro Takeuchi and team published in Science.Perfect Quantum Portal Emerges at Exotic Interface
A junction between an ordinary metal and a special kind of superconductor has provided a robust platform to observe Klein tunneling.Algorithms and Autonomous Discovery
Professor Ichiro Takeuchi uses machine learning to help develop new magnetic materials.New Fuel Cell has Exceptional Power Density and Stability
Discovery presents a significant step toward lower fuel cell costs and more sustainable energy.Clark School Researchers Represented on Four 2017 MURI Awards
UMD is one of the top universities represented among the highly competitive grants awarded this year.UMD has Largest University Showing at 2016 ARPA-E Summit
UMD researchers showcase transformative energy research at ARPA-E Energy Innovation SummitProf. Ichiro Takeuchi Joins a National Center for Spintronics Research
Combinatorial materials discovery will aid spintronic device developmentProf. Ray Phaneuf Appointed Acting Chair of Materials Science and Engineering
Professor Robert M. Briber named Clark School Associate Dean for Research.Office of Naval Research Supports Design Development of Materials at UMD
DURIP grant funds new instrumentation in Combinatorial Synthesis Lab.New Software Will Enhance Materials Science and Engineering’s Undergraduate Program
UMD wins one of six computational design toolkits from ASM International.Searching for Replacements for Rare Earth Elements in Permanent Magnets
Fackler’s exploration of vicalloy using combinatorial materials synthesis wins awards.$3.2M ARPA-E Award Supports Development of Combined Cooling/Heating/Power System
Takeuchi brings expertise in combinatorial materials science to fuel cell team.DOE Report Considers Potential of Thermoelastic Cooling
Technology developed in the Clark School could power more efficient air conditioning.Wuttig Wins 2013 Senior Faculty Research Award
Department of Materials Science and Engineering professor honored for transformational research in his field.UMD Awarded Three Department of Defense MURI Grants
Research teams at UMD receive grants for multidisciplinary research initiatives.UMD's Mtech Pronounces: Business Plan Pitches Are Dead
New Business Model Challenge focuses on business model generation, customer development and pivoting.Wuttig Honored at National Meeting of the Materials Research Society
Professor's 80th birthday, career celebrated in special symposium.Rubloff Co-Authors Major DoE Report on Emerging Energy Technologies
Publication focuses on opportunities in mesoscale science.$2.8M DOE Grant Funds Continued Development of Cooling Technology
Takeuchi leads team creating solid-state, highly efficient cooling systems.Clark School Invention of the Year Winners
Clark School teams won three out of four top prizes in technology commercialization competition.Takeuchi Elected APS Fellow
Cited for pioneering work in combinatorial materials science.$15M Neutron Scattering Collaboration with NIST Renewed
Briber leads effort to develop new instrumentation, measurement techniques.Takeuchi, German Colleagues Collaborate on Materials Research
Ruhr University partnership generates new research, exchanges students and faculty members.175 Percent More Efficient Refrigeration
Clark School team develops "smart" alloy for cooling systems.Takeuchi, Multi-University Group Lead Materials Research
Departments of Defense, Energy fund $15M "combi" studies on superconductors, magnets.Chopra, Takeuchi Win Defense Department Awards
DURIP funds enable purchase of advanced instruments for rotor, materials research.$2M for New Magnetometer Technology
Ultra-sensitive devices for threat detection, biomedical apps earn Takeuchi, collaborators DARPA grant.Five Elevated to Full Professor
Clark School's Adomaitis, Ghodssi, Phaneuf, Sandborn and Takeuchi promoted.Reducing Our Lead Footprint
Clark School engineers discover new material to reduce lead in electronics, landfills.New Lead-Free Material for Electronics
Lead-free piezoelectric material discovered with combinatorial thin film strategy.Takeuchi Selected for Special NAE Symposium
"Frontiers of Engineering" targets exceptional young engineers.Keck Laboratory for Combinatorial Nanosynthesis and Multiscale Characterization to be established at the University of Maryland
UMD received $750,000 award from W. M. Keck Foundation to establish new Keck Laboratory for Combinatorial Nanosynthesis and Multiscale CharacterizationSeven faculty receive NSF Early CAREER Awards
An unprecedented seven young faculty members in the Clark School have received the prestigious National Science Foundation Early CAREER Award.Other professional society fellows
- Japan Society of Applied Physics, 2020
American Physical Society (APS)
- APS, 2011