
Dr Jose A Rodriguez PhD
Senior Scientist, Chemistry Department
Appearances
- DateApril 5, 2021The electronic properties of Ni and Pt nanoparticles deposited on CeO2 have been examined using core and valence photoemission…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateApril 13, 2021Inverse oxide/metal catalysts have shown to be excellent systems for studying the role of the oxide and the oxide-metal interface in a catalytic reaction…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateApril 13, 2021CO2 hydrogenation to methanol is regarded as a promising reaction to catalytically convert a major greenhouse gas (CO2) into a value-added product (methanol)…
Presenter
Speakers
Brookhaven National LaboratoryJose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateJuly 8, 2021Division/Committee: [CATL] Division of Catalysis Science & Technology
Organizers
Ernest Micek Distinguished Chair, University of Wisconsin - MadisonTufts UniversityJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentUniversity of Colorado Boulder - DateAugust 23, 2021During the last twenty years, different combinations of ceria-copper supported and inverse metal oxide catalysts have been used for different catalytic reactions such as CO oxidation, CO2 reduction, and the water-gas shift…
Presenter
Research Associate, Brookhaven National LaboratorySpeakers
- DateAugust 23, 2021Division/Committee: [CATL] Division of Catalysis Science & Technology
Organizers
University of Colorado BoulderErnest Micek Distinguished Chair, University of Wisconsin - MadisonJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentTufts UniversityPresiders
Tufts UniversityUniversity of Colorado Boulder - DateAugust 23, 2021Division/Committee: [CATL] Division of Catalysis Science & Technology
Organizers
University of Colorado BoulderErnest Micek Distinguished Chair, University of Wisconsin - MadisonJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentTufts UniversityPresiders
Tufts UniversityUniversity of Colorado Boulder - DateAugust 23, 2021Division/Committee: [CATL] Division of Catalysis Science & Technology
Organizers
University of Colorado BoulderErnest Micek Distinguished Chair, University of Wisconsin - MadisonJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentTufts UniversityPresiders
Jose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentErnest Micek Distinguished Chair, University of Wisconsin - Madison - DateAugust 23, 2021The electronic properties of Ni and Pt nanoparticles deposited on CeO2(111) have been examined using core and valence photoemission…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateAugust 23, 2021Division/Committee: [CATL] Division of Catalysis Science & Technology
Organizers
University of Colorado BoulderErnest Micek Distinguished Chair, University of Wisconsin - MadisonJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentTufts UniversityPresiders
University of HoustonUniv of Michigan - DateAugust 22, 2021<div id="i4c-draggable-container" style="position: fixed; z-index: 1499; width: 0px; height: 0px;"><div class="resolved" data-reactroot="" style="all: initial;"> </div></div><div id="i4c-draggable-container" style="position: fixed; z-index: 1499; width: 0px; height: 0px;"> <div class="resolved" dat…
Presenter
Postdoc research associate, Brookhaven National LaboratorySpeakers
Jose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentBrookhaven National Laboratory - DateAugust 22, 2021CO2 hydrogenation to methanol has attracted increasing attention with the development of renewable hydrogen. Here we report an In2O3 supported Au catalyst that exhibits excellent performance for hydrogenation of CO2 selectively to methanol…
Presenter
Speakers
Brookhaven National LaboratoryJose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateAugust 25, 2021During the last twenty years, different combinations of ceria-copper supported and inverse metal oxide catalysts have been used for different catalytic reactions such as CO oxidation, CO2 reduction, and the water-gas shift…
Presenter
Research Associate, Brookhaven National LaboratorySpeakers
- DateAugust 24, 2021The rational synthesis of Cu@TiO2 core@shell nanowire (NW) structures was thoroughly explored using a microwave-assisted method through the tuning of experimental parameters such as but not limited to (i) controlled variation in molar ratios, (ii) the effect of discrete Ti precursors, (iii) the met…
Presenter
Graduate Research AssistantSpeakers
Jose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentSUNY Stony Brook - DateAugust 25, 2021The transformation of methane into methanol or higher alcohols at moderate temperature and pressure conditions is of great environmental interest and remains a challenge despite many efforts…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateAugust 25, 2021Highly selective oxidation of methane to methanol has long been challenging in catalysis. Here, we reveal the water-promoted selective tuning from carbon monoxide and carbon dioxide to methanol with the exposure of methane, oxygen, and water to a CeO2/Cu2O/Cu(111) model catalyst…
Presenter
Graduate Research Assistant, Stony Brook UniversitySpeakers
Brookhaven National LaboratoryJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentBrookhaven National Laboratory - DateAugust 24, 2021Methane is a primary component of abundant low-cost natural gas, but it is currently underutilized and exhausted wastefully, affecting global warming. Therefore, exploiting and converting this inefficiently wasted resource to value-added chemicals is drawing great attention…
Presenter
Speakers
Brookhaven National LaboratoryJose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateMarch 20, 2022The transformation of CO2 into alcohols or other hydrocarbon compounds is challenging because of the difficulties associated with the chemical activation of CO2 by heterogeneous catalysts…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateMarch 23, 2022Methane steam reforming (MSR, CH4 + H2O ↔ 3H2 + CO) plays a key role in the production of syngas and hydrogen from natural gas. Ni-based systems are promising MSR catalysts because of their high activity and low cost, but coke formation generally poses a severe problem…
Presenter
Speakers
Brookhaven National LaboratoryJose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateMarch 23, 2022The direct oxidation of methane (CH4) to methanol (CH3OH) at low temperatures has long been one of the holy grail reactions in C1 chemistry…
Presenter
Speakers
Brookhaven National LaboratoryJose A. Rodriguez, PhDSenior Scientist, Chemistry Department - The mechanism for the hydrogenation of CO2 to ethanol in the presence of alkali promoters on the surface or water in the reaction feed has been investigated on well-defined systems using a combination of in-situ techniques {infrared spectroscopy (IR), ambient-pressure X-ray photoelectron spectrosco…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - Studies in recent years have shown that several metal-oxide interfaces adopt an inverse oxide/metal configuration under CO2 hydrogenation conditions. Inverse oxide/metal catalysts have shown to be excellent systems for studying the role of the oxide and oxide-metal interface in catalytic reactions…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - The simplest olefin, _i.e._ ethylene (C2H4), is an hydrocarbon utilized in polymerization reactions to produce commodities…
Presenter
Speakers
- This talk will review research focussed on _in-situ_ studies for the activation and conversion of methane on metal-oxide and oxide-oxide interfaces…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - The mechanism for the hydrogenation of CO2 to ethanol in the presence of alkali promoters on the surface or water in the reaction feed has been investigated on well-defined systems using a combination of in-situ techniques {infrared spectroscopy (IR), ambient-pressure X-ray photoelectron spectrosco…
Speaker
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - : [CATL] Division of Catalysis Science & Technology
Speakers
The Pennsylvania State UniversityHarvard UniversityJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentReasearcher, National Renewable Energy LaboratoryOak Ridge National LabDr, University of Nottingham Ningbo ChinaProfessor, Donghua University (东华大学,原中国纺织大学)Dr., Qingdao University of Technology - Studies in recent years have shown that several metal-oxide interfaces adopt an inverse oxide/metal configuration under CO2 hydrogenation conditions. Inverse oxide/metal catalysts have shown to be excellent systems for studying the role of the oxide and oxide-metal interface in catalytic reactions…
Speaker
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - : [CATL] Division of Catalysis Science & Technology
Speakers
Georgia Institute of TechnologyOak Ridge National LaboratoryOak Ridge National LaboratoryUniversity of RochesterOak Ridge National LaboratoryDean of Science and Professor of Chemistry, Penn State UniversityJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentPostdoctoral Research Associate, Pacific Northwest National LaboratoryBeijing University of Chemical TechnologyAssociate Professor, The University of Tennessee Knoxville Tickle College of EngineeringGraduate Research Assistant, University of TennesseeNorthwest University - : [CATL] Division of Catalysis Science & Technology
Speakers
Associate Professor, University of MaineUniversity of Maryland at College ParkSeton Hall UniversityHong Kong University of Science and TechnologyProfessor, Technical University of DenmarkDanmarks Tekniske UniversitetWashington University in St. LouisUniversity of IowaUniv of VirginiaSenior Scientific Advisor, Enamine Ltd.Senior Scientific Advisor, EnamineLong Island UniversityChemical Engineer, Pacific Northwest National LaboratoryPacific Northwest National LaboratoryResearch Associate, Brookhaven National LaboratoryJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentPostdoctoral Research Associate, Pacific Northwest National LaboratoryArgonne National LaboratoryNorthwestern UniversityArgonne National LaboratoryUniversity of Central Florida - The mechanism for the hydrogenation of CO2 to ethanol in the presence of alkali promoters on the surface or water in the reaction feed has been investigated on well-defined systems using a combination of in-situ techniques {infrared spectroscopy (IR), ambient-pressure X-ray photoelectron spectrosco…
Speaker
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - : [CATL] Division of Catalysis Science & Technology
Speakers
The Pennsylvania State UniversityHarvard UniversityJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentReasearcher, National Renewable Energy LaboratoryOak Ridge National LabDr, University of Nottingham Ningbo ChinaProfessor, Donghua University (东华大学,原中国纺织大学)Dr., Qingdao University of Technology - Studies in recent years have shown that several metal-oxide interfaces adopt an inverse oxide/metal configuration under CO2 hydrogenation conditions. Inverse oxide/metal catalysts have shown to be excellent systems for studying the role of the oxide and oxide-metal interface in catalytic reactions…
Speaker
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - : [CATL] Division of Catalysis Science & Technology
Speakers
Georgia Institute of TechnologyOak Ridge National LaboratoryOak Ridge National LaboratoryUniversity of RochesterOak Ridge National LaboratoryDean of Science and Professor of Chemistry, Penn State UniversityJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentPostdoctoral Research Associate, Pacific Northwest National LaboratoryBeijing University of Chemical TechnologyAssociate Professor, The University of Tennessee Knoxville Tickle College of EngineeringGraduate Research Assistant, University of TennesseeNorthwest University - : [CATL] Division of Catalysis Science & Technology
Speakers
Associate Professor, University of MaineUniversity of Maryland at College ParkSeton Hall UniversityHong Kong University of Science and TechnologyProfessor, Technical University of DenmarkDanmarks Tekniske UniversitetWashington University in St. LouisUniversity of IowaUniv of VirginiaSenior Scientific Advisor, Enamine Ltd.Senior Scientific Advisor, EnamineLong Island UniversityChemical Engineer, Pacific Northwest National LaboratoryPacific Northwest National LaboratoryResearch Associate, Brookhaven National LaboratoryJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentPostdoctoral Research Associate, Pacific Northwest National LaboratoryArgonne National LaboratoryNorthwestern UniversityArgonne National LaboratoryUniversity of Central Florida - The simplest olefin, _i.e._ ethylene (C2H4), is an hydrocarbon utilized in polymerization reactions to produce commodities…
Speakers
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - : [COLL] Division of Colloid & Surface Chemistry
Speakers
Universitaet Erlangen-NuernbergIndiana UniversityProduction Radiochemist, TerraPowerProf., University of WashingtomPostdoctoral Associate, Mississippi State UniversityShahadat Hossain, Senior ScientistSynthesis of B4 cluster on Mo(112) surface, Bangladesh Atomic Energy CommissionJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentPostdoctoral Scholar, The University of Chicago GSECARS - The mechanism for the hydrogenation of CO2 to ethanol in the presence of alkali promoters on the surface or water in the reaction feed has been investigated on well-defined systems using a combination of in-situ techniques {infrared spectroscopy (IR), ambient-pressure X-ray photoelectron spectrosco…
Speaker
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - : [CATL] Division of Catalysis Science & Technology
Speakers
The Pennsylvania State UniversityHarvard UniversityJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentReasearcher, National Renewable Energy LaboratoryOak Ridge National LabDr, University of Nottingham Ningbo ChinaProfessor, Donghua University (东华大学,原中国纺织大学)Dr., Qingdao University of Technology - Studies in recent years have shown that several metal-oxide interfaces adopt an inverse oxide/metal configuration under CO2 hydrogenation conditions. Inverse oxide/metal catalysts have shown to be excellent systems for studying the role of the oxide and oxide-metal interface in catalytic reactions…
Speaker
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - : [CATL] Division of Catalysis Science & Technology
Speakers
Georgia Institute of TechnologyOak Ridge National LaboratoryOak Ridge National LaboratoryUniversity of RochesterOak Ridge National LaboratoryDean of Science and Professor of Chemistry, Penn State UniversityJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentPostdoctoral Research Associate, Pacific Northwest National LaboratoryBeijing University of Chemical TechnologyAssociate Professor, The University of Tennessee Knoxville Tickle College of EngineeringGraduate Research Assistant, University of TennesseeNorthwest University - : [CATL] Division of Catalysis Science & Technology
Speakers
Associate Professor, University of MaineUniversity of Maryland at College ParkSeton Hall UniversityHong Kong University of Science and TechnologyProfessor, Technical University of DenmarkDanmarks Tekniske UniversitetWashington University in St. LouisUniversity of IowaUniv of VirginiaSenior Scientific Advisor, Enamine Ltd.Senior Scientific Advisor, EnamineLong Island UniversityChemical Engineer, Pacific Northwest National LaboratoryPacific Northwest National LaboratoryResearch Associate, Brookhaven National LaboratoryJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentPostdoctoral Research Associate, Pacific Northwest National LaboratoryArgonne National LaboratoryNorthwestern UniversityArgonne National LaboratoryUniversity of Central Florida - The simplest olefin, _i.e._ ethylene (C2H4), is an hydrocarbon utilized in polymerization reactions to produce commodities…
Speakers
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - : [COLL] Division of Colloid & Surface Chemistry
Speakers
Universitaet Erlangen-NuernbergIndiana UniversityProduction Radiochemist, TerraPowerProf., University of WashingtomPostdoctoral Associate, Mississippi State UniversityShahadat Hossain, Senior ScientistSynthesis of B4 cluster on Mo(112) surface, Bangladesh Atomic Energy CommissionJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentPostdoctoral Scholar, The University of Chicago GSECARS - This talk will review research focussed on _in-situ_ studies for the activation and conversion of methane on metal-oxide and oxide-oxide interfaces…
Speaker
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - : [ENFL] Division of Energy and Fuels
Speakers
Louisiana State UniversityWest Virginia UniversityProfessor, Tulane UniversityNorth Carolina State UniversityJose A. Rodriguez, PhDSenior Scientist, Chemistry Department - The mechanism for the hydrogenation of CO2 to ethanol in the presence of alkali promoters on the surface or water in the reaction feed has been investigated on well-defined systems using a combination of in-situ techniques {infrared spectroscopy (IR), ambient-pressure X-ray photoelectron spectrosco…
Speaker
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - : [CATL] Division of Catalysis Science & Technology
Speakers
The Pennsylvania State UniversityHarvard UniversityJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentReasearcher, National Renewable Energy LaboratoryOak Ridge National LabDr, University of Nottingham Ningbo ChinaProfessor, Donghua University (东华大学,原中国纺织大学)Dr., Qingdao University of Technology - Studies in recent years have shown that several metal-oxide interfaces adopt an inverse oxide/metal configuration under CO2 hydrogenation conditions. Inverse oxide/metal catalysts have shown to be excellent systems for studying the role of the oxide and oxide-metal interface in catalytic reactions…
Speaker
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - : [CATL] Division of Catalysis Science & Technology
Speakers
Georgia Institute of TechnologyOak Ridge National LaboratoryOak Ridge National LaboratoryUniversity of RochesterOak Ridge National LaboratoryDean of Science and Professor of Chemistry, Penn State UniversityJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentPostdoctoral Research Associate, Pacific Northwest National LaboratoryBeijing University of Chemical TechnologyAssociate Professor, The University of Tennessee Knoxville Tickle College of EngineeringGraduate Research Assistant, University of TennesseeNorthwest University - : [CATL] Division of Catalysis Science & Technology
Speakers
Associate Professor, University of MaineUniversity of Maryland at College ParkSeton Hall UniversityHong Kong University of Science and TechnologyProfessor, Technical University of DenmarkDanmarks Tekniske UniversitetWashington University in St. LouisUniversity of IowaUniv of VirginiaSenior Scientific Advisor, Enamine Ltd.Senior Scientific Advisor, EnamineLong Island UniversityChemical Engineer, Pacific Northwest National LaboratoryPacific Northwest National LaboratoryResearch Associate, Brookhaven National LaboratoryJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentPostdoctoral Research Associate, Pacific Northwest National LaboratoryArgonne National LaboratoryNorthwestern UniversityArgonne National LaboratoryUniversity of Central Florida - The simplest olefin, _i.e._ ethylene (C2H4), is an hydrocarbon utilized in polymerization reactions to produce commodities…
Speakers
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - : [COLL] Division of Colloid & Surface Chemistry
Speakers
Universitaet Erlangen-NuernbergIndiana UniversityProduction Radiochemist, TerraPowerProf., University of WashingtomPostdoctoral Associate, Mississippi State UniversityShahadat Hossain, Senior ScientistSynthesis of B4 cluster on Mo(112) surface, Bangladesh Atomic Energy CommissionJose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentPostdoctoral Scholar, The University of Chicago GSECARS - This talk will review research focussed on _in-situ_ studies for the activation and conversion of methane on metal-oxide and oxide-oxide interfaces…
Speaker
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - : [ENFL] Division of Energy and Fuels
Speakers
Louisiana State UniversityWest Virginia UniversityProfessor, Tulane UniversityNorth Carolina State UniversityJose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateMarch 29, 2023The mechanism for the hydrogenation of CO2 to ethanol in the presence of alkali promoters on the surface or water in the reaction feed has been investigated on well-defined systems using a combination of in-situ techniques {infrared spectroscopy (IR), ambient-pressure X-ray photoelectron spectrosco…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateMarch 28, 2023Studies in recent years have shown that several metal-oxide interfaces adopt an inverse oxide/metal configuration under CO2 hydrogenation conditions. Inverse oxide/metal catalysts have shown to be excellent systems for studying the role of the oxide and oxide-metal interface in catalytic reactions…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateMarch 28, 2023Cerium oxide (CeO2) has drawn much attention as a catalytic material over last two decades…
Presenter
Speakers
Research Associate, Brookhaven National LaboratoryJose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateMarch 26, 2023This talk will review research focussed on _in-situ_ studies for the activation and conversion of methane on metal-oxide and oxide-oxide interfaces…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateAugust 16, 2023The transformation of CO2 into methanol and higher alcohols is challenging because of the difficulties associated with the chemical activation of this highly stable molecule by heterogeneous catalysts…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateMarch 18, 2024Small nanoparticles of ceria deposited on CuOx/Cu(111) and a CuO powder display a very high activity and selectivity for the production of methanol via CO2 hydrogenation. Under reaction conditions the ceria transforms into Ce2O3 and the copper oxide undergoes full reduction to metallic copper…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateMarch 20, 2024The transformation of methane into methanol or higher alcohols at moderate temperature and pressure conditions is of great environmental interest and remains a challenge despite many efforts…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateAugust 21, 2024One key to a sustainable future is achieving highly active and selective catalysts for the conversion of CO2 to fuels and chemicals, such as syngas, methane, and methanol…
Presenter
Research Associate, Brookhaven National LaboratorySpeakers
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateAugust 20, 2024Inverse oxide/metal catalysts have been shown to be excellent systems for studying the role of the oxide and oxide-metal interface in catalytic reactions…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateAugust 20, 2024To design and optimize cost-effective technologies for the capture, utilization, and storage of CO2, we need a fundamental knowledge and control chemical interactions associated with the capture and conversion of the molecule into high-value chemicals, minerals, and all kinds of materials…
Presenters
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateAugust 20, 2024To develop and enhance cost-effective technologies for capturing, utilizing, storing, and conversion into valuable chemicals of two significant greenhouse gases, carbon dioxide (CO2) and methane (CH4), a deep understanding and control of the chemical interactions are essential…
Presenter
Speakers
- DateAugust 21, 2024The transformation of CO2 into higher alcohols is challenging because of the difficulties associated with the chemical activation of this highly stable molecule and the formation of C-C bonds…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateAugust 18, 2024Inverse oxide/metal catalysts have proven to be excellent systems for studying the role of the oxide and the oxide-metal interface in catalytic reactions…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateAugust 18, 2024Directly converting methane to methanol, bypassing compression and liquefaction, poses a key challenge due to methane's stable C-H bond…
Presenter
Speakers
Jose A. Rodriguez, PhDSenior Scientist, Chemistry DepartmentBrookhaven National Laboratory - DateMarch 26, 2025The transformation of CO2 into methanol and higher alcohols is challenging because of the difficulties associated with the chemical activation of this highly stable molecule. Pure metals and bimetallic systems used for this task have usually trouble binding CO2 and, thus, low catalytic activity…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateMarch 26, 2025Carbon dioxide (CO2) is the main contributor to the greenhouse effect, driving global warming and climate change. To limit warming to 1.5 C and achieve net-zero CO2 emissions by 2050, it is essential to develop industrial processes that produce clean fuels from CO2…
Presenter
Co-Authors
Research Associate, Brookhaven National LaboratoryJose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateAugust 20, 2025The role of Ta dopant in low temperature selective heterogeneous catalytic methanation of CO2 over Ru/CeO2 catalyst is investigated in the present work for the first time…
Presenter
Co-Authors
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateAugust 18, 2025Inverse oxide/metal catalysts have shown to be excellent systems for studying the role of the oxide and the oxide-metal interface in a catalytic reaction…
Presenter
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department - DateAugust 20, 2025Natural gas, primarily composed of methane, is a versatile energy vector with significant potential for efficient energy utilization. Converting methane into valuable hydrocarbons, such as ethane and ethylene, at low temperatures without deactivation challenges remains a critical objective…
Presenter
Co-Author
Jose A. Rodriguez, PhDSenior Scientist, Chemistry Department