ProfessorsProfessors of Arizona State UniversityJames E. Miller

James E. Miller

Arizona State University

H-index: 39

North America-United States

About James E. Miller

James E. Miller, With an exceptional h-index of 39 and a recent h-index of 23 (since 2020), a distinguished researcher at Arizona State University, specializes in the field of energy, chemistry, catalysis.

His recent articles reflect a diverse array of research interests and contributions to the field:

Two‐Step Chemical Looping Cycle for Renewable NH3 Production Based on Non‐Catalytic Co3Mo3N/Co6Mo6N Reactions (Adv. Energy Mater. 7/2024)

Basic Thermodynamics Principles of Two-Step Thermochemical Cycles of Non-Volatile, Redox-Active Metal Oxides

Solar Ammonia Production via Novel Two-step Thermochemical Looping of a Co3Mo3N/Co6Mo6N pair [Slides]

Solar-Thermal Ammonia Production Via a Nitride Looping Cycle [Slides]

TWO-STEP THERMOCHEMICAL LABYRINTH REACTOR AND METHODS

Redox-active oxide materials for thermal energy storage

Modified Calcium Manganites for Thermochemical Energy Storage Applications

Techno-Economic Analysis of a Concentrating Solar Power Plant Using Redox-Active Metal Oxides as Heat Transfer Fluid and Storage Media

James E. Miller Information

University	Arizona State University
Position	___
Citations(all)	6448
Citations(since 2020)	2095
Cited By	5127
hIndex(all)	39
hIndex(since 2020)	23
i10Index(all)	76
i10Index(since 2020)	43
Email	Access Email
University Profile Page	Arizona State University
Google Scholar	View Google Scholar Profile

James E. Miller Skills & Research Interests

energy

chemistry

catalysis

Top articles of James E. Miller

Title	Journal	Author(s)	Publication Date
Two‐Step Chemical Looping Cycle for Renewable NH3 Production Based on Non‐Catalytic Co3Mo3N/Co6Mo6N Reactions (Adv. Energy Mater. 7/2024)	Advanced Energy Materials	Nhu Pailes Nguyen Shaspreet Kaur H Evan Bush James E Miller Andrea Ambrosini ...	2024/2
Basic Thermodynamics Principles of Two-Step Thermochemical Cycles of Non-Volatile, Redox-Active Metal Oxides		Ellen B Stechel Ivan Ermanoski Andrea Ambrosini Eric N Coker James E Miller	2022
Solar Ammonia Production via Novel Two-step Thermochemical Looping of a Co3Mo3N/Co6Mo6N pair [Slides]		Xiang Gao Ivan Ermanoski Alberto de la Calle Andrea Ambrosini Ellen B Stechel ...	2022/9/27
Solar-Thermal Ammonia Production Via a Nitride Looping Cycle [Slides]		Andrea Ambrosini Hagan Evan Bush Ivan Ermanoski Xiang Michael Gao Peter Loutzenhizer ...	2022/9/1
TWO-STEP THERMOCHEMICAL LABYRINTH REACTOR AND METHODS			2022/6/9
Redox-active oxide materials for thermal energy storage			2022/5/24
Modified Calcium Manganites for Thermochemical Energy Storage Applications	Frontiers in Energy Research	James E Miller Sean M Babiniec Eric N Coker Peter G Loutzenhiser Ellen B Stechel ...	2022/4/14
Techno-Economic Analysis of a Concentrating Solar Power Plant Using Redox-Active Metal Oxides as Heat Transfer Fluid and Storage Media	Frontiers in Energy Research	Brandon T Gorman Mariana Lanzarini-Lopes Nathan G Johnson James E Miller Ellen B Stechel	2021/12/1
Metal nitride materials for solar-thermal ammonia production [Slides]		Andrea Ambrosini Hagan Bush Xiang Gao Zachary Berquist Nathaniel Anbar ...	2021/9/1
Proppant compositions and methods of use			2021/6/8
Compositional and operational impacts on the thermochemical reduction of CO2 to CO by iron oxide/yttria-stabilized zirconia	RSC Advances	Eric N Coker Andrea Ambrosini James E Miller	2021/1/5
Methods for operating solar-thermochemical processes			2020/10/13