J
Jon Paul Maria
Researcher at Pennsylvania State University
Publications - 311
Citations - 12250
Jon Paul Maria is an academic researcher from Pennsylvania State University. The author has contributed to research in topics: Thin film & Dielectric. The author has an hindex of 48, co-authored 282 publications receiving 9656 citations. Previous affiliations of Jon Paul Maria include North Carolina State University & DuPont.
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Entropy-stabilized oxides
Christina M. Rost,Edward Sachet,Trent Borman,Ali Moballegh,Elizabeth C. Dickey,Dong Hou,Jacob L. Jones,Stefano Curtarolo,Jon Paul Maria +8 more
TL;DR: It is demonstrated beyond reasonable doubt that entropy predominates the thermodynamic landscape, and drives a reversible solid-state transformation between a multiphase and single-phase state.
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Alternative dielectrics to silicon dioxide for memory and logic devices
TL;DR: Development of higher permittivity dielectrics for dynamic random-access memories serves to illustrate the magnitude of the now urgent problem of identifying alternatives to silicon dioxide for the gate dielectric in logic devices, such as the ubiquitous field-effect transistor.
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High-entropy high-hardness metal carbides discovered by entropy descriptors
Pranab Sarker,Tyler Harrington,Cormac Toher,Corey Oses,Mojtaba Samiee,Jon Paul Maria,Donald W. Brenner,Kenneth S. Vecchio,Stefano Curtarolo,Stefano Curtarolo +9 more
TL;DR: The authors introduce an entropy-forming-ability descriptor capturing the synthesizability of high-entropy materials, and apply the model to the discovery of new refractory metal carbides.
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Surface plasmon resonance in conducting metal oxides
Crissy L. Rhodes,Stefan Franzen,Jon Paul Maria,Mark D. Losego,Donovan N. Leonard,Brian J. Laughlin,Gerd Duscher,Stephen Weibel +7 more
TL;DR: In this paper, the surface plasmon resonance (SPR) was observed by attenuated total reflection of near-infrared radiation and is in agreement with electron energy loss spectroscopy measurements.
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Charge-Induced Disorder Controls the Thermal Conductivity of Entropy-Stabilized Oxides
Jeffrey L. Braun,Christina M. Rost,Mina Lim,Ashutosh Giri,David H. Olson,George N. Kotsonis,George N. Kotsonis,Gheorghe Stan,Donald W. Brenner,Jon Paul Maria,Jon Paul Maria,Patrick E. Hopkins +11 more
TL;DR: Measuring the structural, mechanical, and thermal properties of single-crystal entropy-stabilized oxides, it is shown that local ionic charge disorder can effectively reduce thermal conductivity without compromising mechanical stiffness, resulting in this class of material possessing the highest ratio of elastic modulus to thermal Conductivity of any isotropic crystal.