Find Faculty Experts
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Education
- Degree: Ph.D.
- Year: 1996
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Institution and Location
University of Florida, Gainesville, FL -
Major Discipline
Finance
- Degree: M.B.A.
- Year: 1991
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Institution and Location
McGill University, Montréal, Canada -
Major Discipline
Business Administration
- Degree: B.S.
- Year: 1988
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Institution and Location
McGill University, Montréal, Canada -
Major Discipline
Electrical Engineering
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Sorin M. Sorescu
Ruby and Earle A. Shields Jr. ’41 Chair in Investment Advising, Department Head, Department of Finance, Mays Business School
Department(s): Department of Finance
Campus: Texas A&M University
Contact Information
Phone: 979-458-0380Personal/Dept/Lab URL:
E-mail: smsorescu@mays.tamu.edu
Personal Departmental Webpage
Research Topic(s)
Energy economics
Research Summary
Sorin Sorescu is Professor of Finance at Mays Business School, where he holds the Patricia and Bookman Peters Research Professorship. Professor Sorescu’s research interests focus on short sales and informational content of security prices, asset management, market efficiency, and macro finance. His research appears in the Journal of Finance, the Review of Financial Studies, the Journal of Financial and Quantitative Analysis, the Journal of Financial Markets, the Journal of International Money and Finance, and the Journal of Money, Credit and Banking. Professor Sorescu taught corporate finance, financial markets, and investments analysis at the undergraduate, M.S. MBA, EMBA and Ph.D. levels.
Professional Background
2009-Present Department Head, Department of Finance, Mays Business School, Texas A&M University, College Station, TX 2009-Present Professor, Department of Finance, Mays Business School, Texas A&M University 2002-2009 Associate Professor, Department of Finance, Mays Business School, Texas A&M University 1996-2002 Assistant Professor, University of Houston, Houston, TX 1992-1996 Research Assistant, University of Florida, Gainesville, FL 1990-1992 Teaching Assistant, McGill University, Montréal, Canada 1988-1990 Electrical Engineer, CAE Electronics, Montréal, Canada -
Themes, Areas, and Topics
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Theme 1: Fossil and Non-Fossil based Technologies for Energy
-
Area 1: Fossil-based Technologies for Energy
- T1: Petroleum exploration and production
- T2: Conventional and unconventional reservoirs
- T3: Drilling technologies
- T4: Natural/shale gas production
- T5: Natural/shale gas supply chain
- T6: Coal conversion to liquid fuels/chemicals/electricity
- T12: Hydrogen production
- T25: Catalysis and reaction engineering for energy applications
- T26: Combustion
- T27: Multifunctional materials for energy applications
- T28: Separation technologies for energy applications (e.g., CO2 capture, utilization, storage)
- T29: Materials for separations in energy applications
- T57: Energy security
- T58: Environmental risk assessment for planning offshore structures
- T60: Water use in hydraulic fracturing
- T65: Crude oil processing: non-thermal, electrical discharge, and plasma processes
-
Area 2: Renewable Technologies for Energy
- T7: Biomass production
- T8: Biomass conversion to liquid fuels/chemicals/electricity
- T9: Biomass-based supply chain
- T10: Hybrid feedstocks (any combination of biomass/coal/natural gas/petroleum) conversion to liquid fuels/chemicals/electricity
- T11: Hybrid feedstocks-based supply chain
- T12: Hydrogen production
- T17: Solar energy conversion and lighting technologies
- T18: Materials for solar energy conversion and storage
- T19: Wind energy conversion technologies
- T20: Wind energy measurement, forecasting, and storage
- T24: Ocean energy conversion
- T25: Catalysis and reaction engineering for energy applications
- T26: Combustion
- T27: Multifunctional materials for energy applications
- T28: Separation technologies for energy applications (e.g., CO2 capture, utilization, storage)
- T29: Materials for separations in energy applications
- T34: Fuel cells technologies and materials
- T35: Thermoelectrics-based technologies and materials
- T55: Nondestructive testing for energy applications
- T56: Biofuel biochemistry and energy metabolism
- T63: Turbomachinery for energy use and its reliability
- T64: Materials for wind energy
- Area 3: Geothermal and Hydropower-based Technologies for Energy
-
Area 4: Nuclear Energy Technologies
- T14: Nuclear energy conversion technologies
- T15: Materials for nuclear fuels and system design
- T16: Nuclear safety and security
- T27: Multifunctional materials for energy applications
- T53: Applied superconductivity
- T54: Neutron imaging for energy materials
- T55: Nondestructive testing for energy applications
- T57: Energy security
-
Area 8: Multi-scale Analysis, Simulation, Synthesis, and Optimization of Energy Systems
- T5: Natural/shale gas supply chain
- T6: Coal conversion to liquid fuels/chemicals/electricity
- T8: Biomass conversion to liquid fuels/chemicals/electricity
- T9: Biomass-based supply chain
- T10: Hybrid feedstocks (any combination of biomass/coal/natural gas/petroleum) conversion to liquid fuels/chemicals/electricity
- T11: Hybrid feedstocks-based supply chain
- T12: Hydrogen production
- T13: Hydrogen-based supply chain
- T25: Catalysis and reaction engineering for energy applications
- T26: Combustion
- T27: Multifunctional materials for energy applications
- T28: Separation technologies for energy applications (e.g., CO2 capture, utilization, storage)
- T29: Materials for separations in energy applications
- T39: Modeling, simulation and optimization of energy systems
- T40: Design and synthesis of energy conversion systems
- T41: Energy supply chain
- T42: Control, scheduling, planning, safety, risk analysis, and uncertainty in energy systems
- T45: Energy and sustainability
- T46: Energy and water supply chain
- T47: Energy and food supply chain
- T48: Energy efficiency in urban systems
- T49: Energy use, conservation and lighting technologies for buildings
- T50: Energy in transportation systems: Electric, natural gas, and hybrid vehicles
- T59: Communications for energy systems
- T60: Water use in hydraulic fracturing
- T62: Environmental impacts of energy production
- Area 9: Energy Transmission
-
Area 10: Energy Policy, Law, Security, and Societal Impact
- T16: Nuclear safety and security
- T33: Smart grid safety and security
- T41: Energy supply chain
- T43: Energy economics
- T44: Energy law and policy
- T45: Energy and sustainability
- T46: Energy and water supply chain
- T47: Energy and food supply chain
- T57: Energy security
- T62: Environmental impacts of energy production
-
Area 1: Fossil-based Technologies for Energy
-
Theme 2: Materials, Catalysis, and Separations for Energy
-
Area 1: Fossil-based Technologies for Energy
- T1: Petroleum exploration and production
- T2: Conventional and unconventional reservoirs
- T3: Drilling technologies
- T4: Natural/shale gas production
- T5: Natural/shale gas supply chain
- T6: Coal conversion to liquid fuels/chemicals/electricity
- T12: Hydrogen production
- T25: Catalysis and reaction engineering for energy applications
- T26: Combustion
- T27: Multifunctional materials for energy applications
- T28: Separation technologies for energy applications (e.g., CO2 capture, utilization, storage)
- T29: Materials for separations in energy applications
- T57: Energy security
- T58: Environmental risk assessment for planning offshore structures
- T60: Water use in hydraulic fracturing
- T65: Crude oil processing: non-thermal, electrical discharge, and plasma processes
-
Area 2: Renewable Technologies for Energy
- T7: Biomass production
- T8: Biomass conversion to liquid fuels/chemicals/electricity
- T9: Biomass-based supply chain
- T10: Hybrid feedstocks (any combination of biomass/coal/natural gas/petroleum) conversion to liquid fuels/chemicals/electricity
- T11: Hybrid feedstocks-based supply chain
- T12: Hydrogen production
- T17: Solar energy conversion and lighting technologies
- T18: Materials for solar energy conversion and storage
- T19: Wind energy conversion technologies
- T20: Wind energy measurement, forecasting, and storage
- T24: Ocean energy conversion
- T25: Catalysis and reaction engineering for energy applications
- T26: Combustion
- T27: Multifunctional materials for energy applications
- T28: Separation technologies for energy applications (e.g., CO2 capture, utilization, storage)
- T29: Materials for separations in energy applications
- T34: Fuel cells technologies and materials
- T35: Thermoelectrics-based technologies and materials
- T55: Nondestructive testing for energy applications
- T56: Biofuel biochemistry and energy metabolism
- T63: Turbomachinery for energy use and its reliability
- T64: Materials for wind energy
- Area 3: Geothermal and Hydropower-based Technologies for Energy
-
Area 4: Nuclear Energy Technologies
- T14: Nuclear energy conversion technologies
- T15: Materials for nuclear fuels and system design
- T16: Nuclear safety and security
- T27: Multifunctional materials for energy applications
- T53: Applied superconductivity
- T54: Neutron imaging for energy materials
- T55: Nondestructive testing for energy applications
- T57: Energy security
-
Area 5: Energy Storage
- T31: Electric power generation and storage
- T34: Fuel cells technologies and materials
- T35: Thermoelectrics-based technologies and materials
- T36: Technologies for energy storage: Batteries
- T37: Technologies for energy storage: Hydrogen
- T38: Technologies for energy storage: Supercapacitors
- T51: Technologies for energy storage: Compressed air
- T52: Technologies for energy storage: Heat pumps
- T61: Technologies for energy storage: Flywheels
- T64: Materials for wind energy
- Area 6: Energy Efficiency
- Area 7: Carbon Capture, Utilization, and Storage
-
Area 8: Multi-scale Analysis, Simulation, Synthesis, and Optimization of Energy Systems
- T5: Natural/shale gas supply chain
- T6: Coal conversion to liquid fuels/chemicals/electricity
- T8: Biomass conversion to liquid fuels/chemicals/electricity
- T9: Biomass-based supply chain
- T10: Hybrid feedstocks (any combination of biomass/coal/natural gas/petroleum) conversion to liquid fuels/chemicals/electricity
- T11: Hybrid feedstocks-based supply chain
- T12: Hydrogen production
- T13: Hydrogen-based supply chain
- T25: Catalysis and reaction engineering for energy applications
- T26: Combustion
- T27 Multifunctional materials for energy applications
- T28: Separation technologies for energy applications (e.g., CO2 capture, utilization, storage)
- T29: Materials for separations in energy applications
- T39: Modeling, simulation and optimization of energy systems
- T40: Design and synthesis of energy conversion systems
- T41: Energy supply chain
- T42: Control, scheduling, planning, safety, risk analysis, and uncertainty in energy systems
- T45: Energy and sustainability
- T46: Energy and water supply chain
- T47: Energy and food supply chain
- T48: Energy efficiency in urban systems
- T49: Energy use, conservation and lighting technologies for buildings
- T50: Energy in transportation systems: Electric, natural gas, and hybrid vehicles
- T59: Communications for energy systems
- T60: Water use in hydraulic fracturing
- T62: Environmental impacts of energy production
-
Area 1: Fossil-based Technologies for Energy
-
Theme 3: Multi-scale Energy Systems Engineering
-
Area 1: Fossil-based Technologies for Energy
- T1: Petroleum exploration and production
- T2: Conventional and unconventional reservoirs
- T3: Drilling technologies
- T4: Natural/shale gas production
- T5: Natural/shale gas supply chain
- T6: Coal conversion to liquid fuels/chemicals/electricity
- T12: Hydrogen production
- T25: Catalysis and reaction engineering for energy applications
- T26: Combustion
- T27: Multifunctional materials for energy applications
- T28: Separation technologies for energy applications (e.g., CO2 capture, utilization, storage)
- T29: Materials for separations in energy applications
- T57: Energy security
- T58: Environmental risk assessment for planning offshore structures
- T60: Water use in hydraulic fracturing
- T65: Crude oil processing: non-thermal, electrical discharge, and plasma processes
-
Area 2: Renewable Technologies for Energy
- T7: Biomass production
- T8: Biomass conversion to liquid fuels/chemicals/electricity
- T9: Biomass-based supply chain
- T10: Hybrid feedstocks (any combination of biomass/coal/natural gas/petroleum) conversion to liquid fuels/chemicals/electricity
- T11: Hybrid feedstocks-based supply chain
- T12: Hydrogen production
- T17: Solar energy conversion and lighting technologies
- T18: Materials for solar energy conversion and storage
- T19: Wind energy conversion technologies
- T20: Wind energy measurement, forecasting, and storage
- T24: Ocean energy conversion
- T25: Catalysis and reaction engineering for energy applications
- T26: Combustion
- T27: Multifunctional materials for energy applications
- T28: Separation technologies for energy applications (e.g., CO2 capture, utilization, storage)
- T29: Materials for separations in energy applications
- T34: Fuel cells technologies and materials
- T35: Thermoelectrics-based technologies and materials
- T55: Nondestructive testing for energy applications
- T56: Biofuel biochemistry and energy metabolism
- T63: Turbomachinery for energy use and its reliability
- T64: Materials for wind energy
- Area 3: Geothermal and Hydropower-based Technologies for Energy
-
Area 4: Nuclear Energy Technologies
- T14: Nuclear energy conversion technologies
- T15: Materials for nuclear fuels and system design
- T16: Nuclear safety and security
- T27: Multifunctional materials for energy applications
- T53: Applied superconductivity
- T54: Neutron imaging for energy materials
- T55: Nondestructive testing for energy applications
- T57: Energy security
- Area 6: Energy Efficiency
- Area 7: Carbon Capture, Utilization, and Storage
-
Area 8: Multi-scale Analysis, Simulation, Synthesis, and Optimization of Energy Systems
- T5: Natural/shale gas supply chain
- T6: Coal conversion to liquid fuels/chemicals/electricity
- T8: Biomass conversion to liquid fuels/chemicals/electricity
- T9: Biomass-based supply chain
- T10: Hybrid feedstocks (any combination of biomass/coal/natural gas/petroleum) conversion to liquid fuels/chemicals/electricity
- T11: Hybrid feedstocks-based supply chain
- T12: Hydrogen production
- T13: Hydrogen-based supply chain
- T25: Catalysis and reaction engineering for energy applications
- T26: Combustion
- T27: Multifunctional materials for energy applications
- T28: Separation technologies for energy applications (e.g., CO2 capture, utilization, storage)
- T29: Materials for separations in energy applications
- T39: Modeling, simulation and optimization of energy systems
- T40: Design and synthesis of energy conversion systems
- T41: Energy supply chain
- T42: Control, scheduling, planning, safety, risk analysis, and uncertainty in energy systems
- T45: Energy and sustainability
- T46: Energy and water supply chain
- T47: Energy and food supply chain
- T48: Energy efficiency in urban systems
- T49: Energy use, conservation and lighting technologies for buildings
- T50: Energy in transportation systems: Electric, natural gas, and hybrid vehicles
- T59: Communications for energy systems
- T60: Water use in hydraulic fracturing
- T62: Environmental impacts of energy production
- Area 9: Energy Transmission
-
Area 10: Energy Policy, Law, Security, and Societal Impact
- T16: Nuclear safety and security
- T33: Smart grid safety and security
- T41: Energy supply chain
- T43: Energy economics
- T44: Energy law and policy
- T45: Energy and sustainability
- T46: Energy and water supply chain
- T47: Energy and food supply chain
- T57: Energy security
- T62: Environmental impacts of energy production
-
Area 1: Fossil-based Technologies for Energy
-
Theme 4: Energy Economics, Law, Policy, and Societal Impact
-
Area 1: Fossil-based Technologies for Energy
- T1: Petroleum exploration and production
- T2: Conventional and unconventional reservoirs
- T3: Drilling technologies
- T4: Natural/shale gas production
- T5: Natural/shale gas supply chain
- T6: Coal conversion to liquid fuels/chemicals/electricity
- T12: Hydrogen production
- T25: Catalysis and reaction engineering for energy applications
- T26: Combustion
- T27: Multifunctional materials for energy applications
- T28: Separation technologies for energy applications (e.g., CO2 capture, utilization, storage)
- T29: Materials for separations in energy applications
- T57: Energy security
- T58: Environmental risk assessment for planning offshore structures
- T60: Water use in hydraulic fracturing
- T65: Crude oil processing: non-thermal, electrical discharge, and plasma processes
-
Area 2: Renewable Technologies for Energy
- T7: Biomass production
- T8: Biomass conversion to liquid fuels/chemicals/electricity
- T9: Biomass-based supply chain
- T10: Hybrid feedstocks (any combination of biomass/coal/natural gas/petroleum) conversion to liquid fuels/chemicals/electricity
- T11: Hybrid feedstocks-based supply chain
- T12: Hydrogen production
- T17: Solar energy conversion and lighting technologies
- T18: Materials for solar energy conversion and storage
- T19: Wind energy conversion technologies
- T20: Wind energy measurement, forecasting, and storage
- T24: Ocean energy conversion
- T25: Catalysis and reaction engineering for energy applications
- T26: Combustion
- T27: Multifunctional materials for energy applications
- T28: Separation technologies for energy applications (e.g., CO2 capture, utilization, storage)
- T29: Materials for separations in energy applications
- T34: Fuel cells technologies and materials
- T35: Thermoelectrics-based technologies and materials
- T55: Nondestructive testing for energy applications
- T56: Biofuel biochemistry and energy metabolism
- T63: Turbomachinery for energy use and its reliability
- T64: Materials for wind energy
- Area 3: Geothermal and Hydropower-based Technologies for Energy
-
Area 4: Nuclear Energy Technologies
- T14: Nuclear energy conversion technologies
- T15: Materials for nuclear fuels and system design
- T16: Nuclear safety and security
- T27: Multifunctional materials for energy applications
- T53: Applied superconductivity
- T54: Neutron imaging for energy materials
- T55: Nondestructive testing for energy applications
- T57: Energy security
- Area 7: Carbon Capture, Utilization, and Storage
-
Area 8: Multi-scale Analysis, Simulation, Synthesis, and Optimization of Energy Systems
- T5: Natural/shale gas supply chain
- T6: Coal conversion to liquid fuels/chemicals/electricity
- T8: Biomass conversion to liquid fuels/chemicals/electricity
- T9: Biomass-based supply chain
- T10: Hybrid feedstocks (any combination of biomass/coal/natural gas/petroleum) conversion to liquid fuels/chemicals/electricity
- T11: Hybrid feedstocks-based supply chain
- T12: Hydrogen production
- T13: Hydrogen-based supply chain
- T25: Catalysis and reaction engineering for energy applications
- T26: Combustion
- T27: Multifunctional materials for energy applications
- T28: Separation technologies for energy applications (e.g., CO2 capture, utilization, storage)
- T29: Materials for separations in energy applications
- T39: Modeling, simulation and optimization of energy systems
- T40: Design and synthesis of energy conversion systems
- T41: Energy supply chain
- T42: Control, scheduling, planning, safety, risk analysis, and uncertainty in energy systems
- T45: Energy and sustainability
- T46: Energy and water supply chain
- T47: Energy and food supply chain
- T48: Energy efficiency in urban systems
- T49: Energy use, conservation and lighting technologies for buildings
- T50: Energy in transportation systems: Electric, natural gas, and hybrid vehicles
- T59: Communications for energy systems
- T60: Water use in hydraulic fracturing
- T62: Environmental impacts of energy production
- Area 9: Energy Transmission
-
Area 10: Energy Policy, Law, Security, and Societal Impact
- T16: Nuclear safety and security
- T33: Smart grid safety and security
- T41: Energy supply chain
- T43: Energy economics
- T44: Energy law and policy
- T45: Energy and sustainability
- T46: Energy and water supply chain
- T47: Energy and food supply chain
- T57: Energy security
- T62: Environmental impacts of energy production
-
Area 1: Fossil-based Technologies for Energy
-
Theme 1: Fossil and Non-Fossil based Technologies for Energy