Harry L. Tuller, Ph.D.

Affiliations:

Materials Science and Engineering

Massachusetts Institute of Technology, Cambridge, MA, United States

Area:

Solid state ionics, Electronic structure and transport properties of oxide ceramics, and gas sensors

Website:

http://electroceramics.mit.edu/index.php?option=com_content&view=article&id=54&Itemid=63

Google:

"Harry Tuller"

Bio:

Harry L. Tuller is Professor in the Department of Materials Science and Engineering and Director of the Crystal Physics and Electroceramics Laboratory. He is a Fellow of the American Ceramic Society, and a past winner of the von Humboldt and the Fulbright awards. He is currently the Editor-in-chief of the Journal of Electroceramics. He is a co-founder of Boston MicroSystems, a pioneer in SiC MEMS-based sensor technology. His research interests are in the area of solid state ionics, electronic structure, and transport properties of oxide ceramics, and gas sensors.

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Parents

Arthur Stanley Nowick	grad student	1973	Columbia
(Electrical properties and defect model of nonstoichiometric and impurity-doped CeO₂.)

Children

Yitzhak Avrahami	grad student		MIT
Woochul Jung	grad student		MIT
Jae Jin Kim	grad student		MIT
Elizabeth Opila	grad student		MIT
Huankiat Seh	grad student		MIT
Dilan Seneviratne	grad student		MIT
Todd Stefanik	grad student		MIT
Michel W. Barsoum	grad student	1985	MIT (E-Tree)
Stanley R. Rotman	grad student	1980-1985	MIT
Joshua L. Hertz	grad student	2001-2006	MIT
Di Chen	grad student	2008-2014	MIT
ChangSub Kim	grad student	2013-2019	MIT
Ulrich Muecke	post-doc		MIT (Chemistry Tree)
Jennifer Rupp	post-doc		(Chemistry Tree)
Roel van de Krol	post-doc	2001	MIT

Collaborators

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Publications

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Defferriere T, Helal AS, Li J, et al. (2024) Ionic Conduction-Based Polycrystalline Oxide Gamma Ray Detection - Radiation-Ionic Effects. Advanced Materials (Deerfield Beach, Fla.). e2309253
Defferriere T, Klotz D, Gonzalez-Rosillo JC, et al. (2022) Photo-enhanced ionic conductivity across grain boundaries in polycrystalline ceramics. Nature Materials
Yang J, Polfus JM, Li Z, et al. (2020) Role of Adsorbate Coverage on the Oxygen DissociationRate on Sr-Doped LaMnO 3 Surfaces in the Presence of H 2 O and CO 2 Chemistry of Materials. 32: 5483-5492
Ueda T, Defferriere T, Hyodo T, et al. (2020) Nanostructured Pr-doped Ceria (PCO) thin films as sensing electrodes in solid-electrolyte type gas sensors with enhanced toluene sensitivity Sensors and Actuators B-Chemical. 317: 128037
Kalaev D, Defferriere T, Nicollet C, et al. (2020) Dynamic Current–Voltage Analysis of Oxygen Vacancy Mobility in Praseodymium‐Doped Ceria over Wide Temperature Limits Advanced Functional Materials. 30: 1907402
Harrington G, Kalaev D, Yildiz B, et al. (2019) Tailoring non-stoichiometry and mixed ionic electronic conductivity in PrCeO/SrTiO heterostructures. Acs Applied Materials & Interfaces
Sediva E, Defferriere T, Perry NH, et al. (2019) In Situ Method Correlating Raman Vibrational Characteristics to Chemical Expansion via Oxygen Nonstoichiometry of Perovskite Thin Films. Advanced Materials (Deerfield Beach, Fla.). e1902493
Perry NH, Kim N, Ertekin E, et al. (2019) Origins and Control of Optical Absorption in a Nondilute Oxide Solid Solution: Sr(Ti,Fe)O3–xPerovskite Case Study Chemistry of Materials. 31: 1030-1041
Cho Y, Ogawa M, Oikawa I, et al. (2019) Stabilizing Coexisting n-Type Electronic and Oxide Ion Conductivities in Donor-Doped Ba–In-Based Oxides under Oxidizing Conditions: Roles of Oxygen Disorder and Electronic Structure Chemistry of Materials. 31: 2713-2722
Nicollet C, Kalaev D, Tuller HL. (2019) Mixed conductivity and oxygen surface exchange kinetics of lanthanum-praseodymium doped cerium dioxide Solid State Ionics. 331: 96-101