Cart
Perspective
- Prev. Article
- Table of Contents
Chemical Recycling of Carbon Dioxide to Methanol and Dimethyl Ether: From Greenhouse Gas to Renewable, Environmentally Carbon Neutral Fuels and Synthetic Hydrocarbons
Loker Hydrocarbon Research Institute and Department of Chemistry, University of Southern California, University Park, Los Angeles, California 90089-1661
J. Org. Chem., 2009, 74 (2), pp 487–498
DOI: 10.1021/jo801260f
Publication Date (Web): December 8, 2008
Copyright © 2008 American Chemical Society
Abstract
Nature’s photosynthesis uses the sun’s energy with chlorophyll in plants as a catalyst to recycle carbon dioxide and water into new plant life. Only given sufficient geological time can new fossil fuels be formed naturally. In contrast, chemical recycling of carbon dioxide from natural and industrial sources as well as varied human activities or even from the air itself to methanol or dimethyl ether (DME) and their varied products can be achieved via its capture and subsequent reductive hydrogenative conversion. The present Perspective reviews this new approach and our research in the field over the last 15 years. Carbon recycling represents a significant aspect of our proposed Methanol Economy. Any available energy source (alternative energies such as solar, wind, geothermal, and atomic energy) can be used for the production of needed hydrogen and chemical conversion of CO2. Improved new methods for the efficient reductive conversion of CO2 to methanol and/or DME that we have developed include bireforming with methane and ways of catalytic or electrochemical conversions. Liquid methanol is preferable to highly volatile and potentially explosive hydrogen for energy storage and transportation. Together with the derived DME, they are excellent transportation fuels for internal combustion engines (ICE) and fuel cells as well as convenient starting materials for synthetic hydrocarbons and their varied products. Carbon dioxide thus can be chemically transformed from a detrimental greenhouse gas causing global warming into a valuable, renewable and inexhaustible carbon source of the future allowing environmentally neutral use of carbon fuels and derived hydrocarbon products.
Citation data is made available by participants in CrossRef's Cited-by Linking service. For a more comprehensive list of citations to this article, users are encouraged to perform a search in SciFinder.
Catalytic Reduction of CO2 by Renewable Organohydrides
Chern-Hooi Lim, Aaron M. Holder, James T. Hynes, and Charles B. MusgraveThe Journal of Physical Chemistry Letters2015 Article ASAP
Surface-Bound Intermediates in Low-Temperature Methanol Synthesis on Copper: Participants and Spectators
Yong Yang, Donghai Mei, Charles H. F. Peden, Charles T. Campbell, and Charles A. MimsACS Catalysis2015 5 (12), 7328-7337
Behavior of a CuFe2O4/γ-Al2O3 Catalyst for the Steam Reforming of Dimethyl Ether in Reaction-Regeneration Cycles
Lide Oar-Arteta, Andrés T. Aguayo, Aingeru Remiro, Javier Bilbao, and Ana G. GayuboIndustrial & Engineering Chemistry Research2015 54 (45), 11285-11294
Hydrogenation of CO2 to Methanol: Importance of Metal–Oxide and Metal–Carbide Interfaces in the Activation of CO2
José A. Rodriguez, Ping Liu, Dario J. Stacchiola, Sanjaya D. Senanayake, Michael G. White, and Jingguang G. ChenACS Catalysis2015 5 (11), 6696-6706
Effect of Operating Conditions on Dimethyl Ether Steam Reforming over a CuFe2O4/γ-Al2O3 Bifunctional Catalyst
Lide Oar-Arteta, Aingeru Remiro, Andrés T. Aguayo, Javier Bilbao, and Ana G. GayuboIndustrial & Engineering Chemistry Research2015 54 (40), 9722-9732![Cover Image]()
Recent Advances in the Synthesis of Triarylmethanes by Transition Metal Catalysis
Masakazu Namboand Cathleen M. CruddenACS Catalysis2015 5 (8), 4734-4742![Cover Image]()
Efficient Electrochemical CO2 Conversion Powered by Renewable Energy
Douglas R. Kauffman, Jay Thakkar, Rajan Siva, Christopher Matranga, Paul R. Ohodnicki, Chenjie Zeng, and Rongchao JinACS Applied Materials & Interfaces2015 7 (28), 15626-15632![Cover Image]()
Single Step Bi-reforming and Oxidative Bi-reforming of Methane (Natural Gas) with Steam and Carbon Dioxide to Metgas (CO-2H2) for Methanol Synthesis: Self-Sufficient Effective and Exclusive Oxygenation of Methane to Methanol with Oxygen
George A. Olah, Alain Goeppert, Miklos Czaun, Thomas Mathew, Robert B. May, and G. K. Surya PrakashJournal of the American Chemical Society2015 137 (27), 8720-8729![Cover Image]()
From Organometallic Zinc and Copper Complexes to Highly Active Colloidal Catalysts for the Conversion of CO2 to Methanol
Neil J. Brown, Andrés García-Trenco, Jonathan Weiner, Edward R. White, Matthew Allinson, Yuxin Chen, Peter P. Wells, Emma K. Gibson, Klaus Hellgardt, Milo S. P. Shaffer, and Charlotte K. WilliamsACS Catalysis2015 5 (5), 2895-2902![Cover Image]()
Tethering of Nicotinamide Adenine Dinucleotide Inside Hollow Nanofibers for High-Yield Synthesis of Methanol from Carbon Dioxide Catalyzed by Coencapsulated Multienzymes
Xiaoyuan Ji, Zhiguo Su, Ping Wang, Guanghui Ma, and Songping ZhangACS Nano2015 9 (4), 4600-4610![Cover Image]()
Hydroboration of Carbon Dioxide Using Ambiphilic Phosphine–Borane Catalysts: On the Role of the Formaldehyde Adduct
Richard Declercq, Ghenwa Bouhadir, Didier Bourissou, Marc-André Légaré, Marc-André Courtemanche, Karine Syrine Nahi, Nicolas Bouchard, Frédéric-Georges Fontaine, and Laurent MaronACS Catalysis2015 5 (4), 2513-2520![Cover Image]()
Adding Value to Power Station Captured CO2: Tolerant Zn and Mg Homogeneous Catalysts for Polycarbonate Polyol Production
A. M. Chapman, C. Keyworth, M. R. Kember, A. J. J. Lennox, and C. K. WilliamsACS Catalysis2015 5 (3), 1581-1588![Cover Image]()
Low-Temperature CO2 Hydrogenation to Liquid Products via a Heterogeneous Cascade Catalytic System
Yuan Chen, Saemin Choi, and Levi T. ThompsonACS Catalysis2015 5 (3), 1717-1725![Cover Image]()
Mechanistic Insights into CO2 Activation via Reverse Water–Gas Shift on Metal Surfaces
Luca Dietz, Simone Piccinin, and Matteo MaestriThe Journal of Physical Chemistry C2015 119 (9), 4959-4966![Cover Image]()
Multiobjective Optimization of Methanol Synthesis Loop from Synthesis Gas via a Multibed Adiabatic Reactor with Additional Interstage CO2 Quenching
Abdulaziz Alarifi, Saad Alsobhi, Ali Elkamel, and Eric CroisetEnergy & Fuels2015 29 (2), 530-537![Cover Image]()
Selective Heterogeneous CO2 Electroreduction to Methanol
Seoin Back, Heejin Kim, and Yousung JungACS Catalysis2015 5 (2), 965-971![Cover Image]()
Dry Reforming of Methane with Dielectric Barrier Discharge and Ferroelectric Packed-Bed Reactors
Wei-Chieh Chung, Kuan-Lun Pan, How-Ming Lee, and Moo-Been ChangEnergy & Fuels2014 28 (12), 7621-7631![Cover Image]()
Improved Performance of a PBM Reactor for Simultaneous CO2 Capture and DME Synthesis
Nazely Diban, Ane M. Urtiaga, Inmaculada Ortiz, Javier Ereña, Javier Bilbao, and Andrés T. AguayoIndustrial & Engineering Chemistry Research2014 53 (50), 19479-19487![Cover Image]()
Structures and CO2 Reactivity of Zinc Complexes of Bis(diisopropyl-) and Bis(diphenylphosphino)amines
Diane A. Dickieand Richard A. KempOrganometallics2014 33 (22), 6511-6518![Cover Image]()
High Temperature Electrolysis in Alkaline Cells, Solid Proton Conducting Cells, and Solid Oxide Cells
Sune Dalgaard Ebbesen, Søren Højgaard Jensen, Anne Hauch, and Mogens Bjerg MogensenChemical Reviews2014 114 (21), 10697-10734![Cover Image]()
Reduction of CO2 to Methanol Catalyzed by a Biomimetic Organo-Hydride Produced from Pyridine
Chern-Hooi Lim, Aaron M. Holder, James T. Hynes, and Charles B. MusgraveJournal of the American Chemical Society2014 136 (45), 16081-16095![Cover Image]()
Catalysis Chemistry of Dimethyl Ether Synthesis
Jian Sun, Guohui Yang, Yoshiharu Yoneyama, and Noritatsu TsubakiACS Catalysis2014 4 (10), 3346-3356![Cover Image]()
CO2 Reduction to Methanol on TiO2-Passivated GaP Photocatalysts
Guangtong Zeng, Jing Qiu, Zhen Li, Prathamesh Pavaskar, and Stephen B. CroninACS Catalysis2014 4 (10), 3512-3516![Cover Image]()
Reducing CO2 to Methanol Using Frustrated Lewis Pairs: On the Mechanism of Phosphine–Borane-Mediated Hydroboration of CO2
Marc-André Courtemanche, Marc-André Légaré, Laurent Maron, and Frédéric-Georges FontaineJournal of the American Chemical Society2014 136 (30), 10708-10717![Cover Image]()
Small Molecule Activation Chemistry of Cu–Fe Heterobimetallic Complexes Toward CS2 and N2O
Upul Jayarathne, Sean R. Parmelee, and Neal P. MankadInorganic Chemistry2014 53 (14), 7730-7737![Cover Image]()
Microfluidic Studies of CO2 Sequestration by Frustrated Lewis Pairs
Dan Voicu, Milad Abolhasani, Rachelle Choueiri, Gabriella Lestari, Caroline Seiler, Gabriel Menard, Jesse Greener, Axel Guenther, Douglas W. Stephan, and Eugenia KumachevaJournal of the American Chemical Society2014 136 (10), 3875-3880![Cover Image]()
Distinguishing Homogeneous from Heterogeneous Water Oxidation Catalysis when Beginning with Polyoxometalates
Jordan J. Strackeand Richard G. FinkeACS Catalysis2014 4 (3), 909-933![Cover Image]()
Effect of Operating Conditions on Dimethyl Ether Steam Reforming in a Fluidized Bed Reactor with a CuO–ZnO–Al2O3 and Desilicated ZSM-5 Zeolite Bifunctional Catalyst
Jorge Vicente, Javier Ereña, Lide Oar-Arteta, Martin Olazar, Javier Bilbao, and Ana G. GayuboIndustrial & Engineering Chemistry Research2014 53 (9), 3462-3471![Cover Image]()
Formic Acid As a Hydrogen Storage Medium: Ruthenium-Catalyzed Generation of Hydrogen from Formic Acid in Emulsions
Miklos Czaun, Alain Goeppert, Jotheeswari Kothandaraman, Robert B. May, Ralf Haiges, G. K. Surya Prakash, and George A. OlahACS Catalysis2014 4 (1), 311-320![Cover Image]()
Synergistic Photoelectrochemical Synthesis of Formate from CO2 on {121̅} Hierarchical Co3O4
Xiaofeng Huang, Tongcheng Cao, Meichuan Liu, and Guohua ZhaoThe Journal of Physical Chemistry C2013 117 (50), 26432-26440![Cover Image]()
Enhanced Carbon Dioxide Hydrogenation Facilitated by Catalytic Quantities of Bicarbonate and Other Inorganic Salts
Jessica L. Drake, Cesar M. Manna, and Jeffery A. ByersOrganometallics2013 32 (23), 6891-6894![Cover Image]()
Synthesis of Dimethyl Ether from CO2 and H2 Using a Cu–Fe–Zr/HZSM-5 Catalyst System
Rui-wen Liu, Zu-zeng Qin, Hong-bing Ji, and Tong-ming SuIndustrial & Engineering Chemistry Research2013 52 (47), 16648-16655![Cover Image]()
CO2 Activation with Bulky Neutral and Cationic Phenoxyalanes
Rudolf J. Wehmschulte, Mahmoud Saleh, and Douglas R. PowellOrganometallics2013 32 (22), 6812-6819![Cover Image]()
Photochemical Reduction of Carbon Dioxide to Methanol and Formate in a Homogeneous System with Pyridinium Catalysts
David J. Boston, Chengdong Xu, Daniel W. Armstrong, and Frederick M. MacDonnellJournal of the American Chemical Society2013 135 (44), 16252-16255![Cover Image]()
Density Functional Theory Mechanistic Study of the Reduction of CO2 to CH4 Catalyzed by an Ammonium Hydridoborate Ion Pair: CO2 Activation via Formation of a Formic Acid Entity
Mingwei Wen, Fang Huang, Gang Lu, and Zhi-Xiang WangInorganic Chemistry2013 52 (20), 12098-12107![Cover Image]()
Contemporary Carbocation Chemistry: Applications in Organic Synthesis
Rajasekhar Reddy Naredlaand Douglas A. KlumppChemical Reviews2013 113 (9), 6905-6948![Cover Image]()
Roles of the Lewis Acid and Base in the Chemical Reduction of CO2 Catalyzed by Frustrated Lewis Pairs
Chern-Hooi Lim, Aaron M. Holder, James T. Hynes, and Charles B. MusgraveInorganic Chemistry2013 52 (17), 10062-10066![Cover Image]()
Stoichiometric Reduction of CO2 to CO by Phosphine/AlX3-Based Frustrated Lewis Pairs
Gabriel Ménard, Thomas M. Gilbert, Jillian A. Hatnean, Anne Kraft, Ingo Krossing, and Douglas W. StephanOrganometallics2013 32 (15), 4416-4422![Cover Image]()
Membrane Reactors for in Situ Water Removal: A Review of Applications
Nazely Diban, Andres T. Aguayo, Javier Bilbao, Ane Urtiaga, and Inmaculada OrtizIndustrial & Engineering Chemistry Research2013 52 (31), 10342-10354![Cover Image]()
Photocatalytic Conversion of CO2 to CO Using Rhenium Bipyridine Platforms Containing Ancillary Phenyl or BODIPY Moieties
Gabriel A. Andrade, Allen J. Pistner, Glenn P. A. Yap, Daniel A. Lutterman, and Joel RosenthalACS Catalysis2013 3 (8), 1685-1692![Cover Image]()
Co-Location of Air Capture, Subseafloor CO2 Sequestration, and Energy Production on the Kerguelen Plateau
David S. Goldberg, Klaus S. Lackner, Patrick Han, Angela L. Slagle, and Tao WangEnvironmental Science & Technology2013 47 (13), 7521-7529![Cover Image]()
A Highly Active Phosphine–Borane Organocatalyst for the Reduction of CO2 to Methanol Using Hydroboranes
Marc-André Courtemanche, Marc-André Légaré, Laurent Maron, and Frédéric-Georges FontaineJournal of the American Chemical Society2013 135 (25), 9326-9329![Cover Image]()
Catalytic CO2 Activation Assisted by Rhenium Hydride/B(C6F5)3 Frustrated Lewis Pairs—Metal Hydrides Functioning as FLP Bases
Yanfeng Jiang, Olivier Blacque, Thomas Fox, and Heinz BerkeJournal of the American Chemical Society2013 135 (20), 7751-7760![Cover Image]()
Performance Improvement of Nanocatalysts by Promoter-Induced Defects in the Support Material: Methanol Synthesis over Cu/ZnO:Al
Malte Behrens, Stefan Zander, Patrick Kurr, Nikolas Jacobsen, Jürgen Senker, Gregor Koch, Thorsten Ressler, Richard W. Fischer, and Robert SchlöglJournal of the American Chemical Society2013 135 (16), 6061-6068![Cover Image]()
Highly Efficient SO2 Absorption and Its Subsequent Utilization by Weak Base/Polyethylene Glycol Binary System
Zhen-Zhen Yang, Liang-Nian He, Ya-Nan Zhao, and Bing YuEnvironmental Science & Technology2013 47 (3), 1598-1605![Cover Image]()
Multifold Bond Cleavage and Formation between MeOH and Quinoxalines (or Benzothiazoles): Synthesis of Carbaldehyde Dimethyl Acetals
Yunkui Liu, Bo Jiang, Wei Zhang, and Zhenyuan XuThe Journal of Organic Chemistry2013 78 (3), 966-980![Cover Image]()
Bi-reforming of Methane from Any Source with Steam and Carbon Dioxide Exclusively to Metgas (CO–2H2) for Methanol and Hydrocarbon Synthesis
George A. Olah, Alain Goeppert, Miklos Czaun, and G. K. Surya PrakashJournal of the American Chemical Society2013 135 (2), 648-650![Cover Image]()
Mechanism of Homogeneous Reduction of CO2 by Pyridine: Proton Relay in Aqueous Solvent and Aromatic Stabilization
Chern-Hooi Lim, Aaron M. Holder, and Charles B. MusgraveJournal of the American Chemical Society2013 135 (1), 142-154![Cover Image]()
Reversible Absorption of CO2 Triggered by Phase Transition of Amine-Containing Micro- and Nanogel Particles
Yu Hoshino, Kazushi Imamura, Mengchen Yue, Gen Inoue, and Yoshiko MiuraJournal of the American Chemical Society2012 134 (44), 18177-18180![Cover Image]()
Active Sites and Structure–Activity Relationships of Copper-Based Catalysts for Carbon Dioxide Hydrogenation to Methanol
Sittichai Natesakhawat, Jonathan W. Lekse, John P. Baltrus, Paul R. Ohodnicki, Jr., Bret H. Howard, Xingyi Deng, and Christopher MatrangaACS Catalysis2012 2 (8), 1667-1676![Cover Image]()
Silica Nanoparticles as Supports for Regenerable CO2 Sorbents
Sergio Meth, Alain Goeppert, G. K. Surya Prakash, and George A. OlahEnergy & Fuels2012 26 (5), 3082-3090![Cover Image]()
Oxyanion-Encapsulated Caged Supramolecular Frameworks of a Tris(urea) Receptor: Evidence of Hydroxide- and Fluoride-Ion-Induced Fixation of Atmospheric CO2 as a Trapped CO32– Anion
Sandeep Kumar Dey, Romen Chutia, and Gopal DasInorganic Chemistry2012 51 (3), 1727-1738![Cover Image]()
Formation of Phosphino-Substituted Isocyanate by Reaction of CO2 with Group 2 Complexes Based on the (Me3Si)(i-Pr2P)NH Ligand
Diane A. Dickie, Kevin B. Gislason, and Richard A. KempInorganic Chemistry2012 51 (2), 1162-1169![Cover Image]()
Carbon Dioxide Capture from the Air Using a Polyamine Based Regenerable Solid Adsorbent
Alain Goeppert, Miklos Czaun, Robert B. May, G. K. Surya Prakash, George A. Olah, and S. R. NarayananJournal of the American Chemical Society2011 133 (50), 20164-20167![Cover Image]()
High-Yield Synthesis of Ultrathin and Uniform Bi2WO6 Square Nanoplates Benefitting from Photocatalytic Reduction of CO2 into Renewable Hydrocarbon Fuel under Visible Light
Yong Zhou, Zhongping Tian, Zongyan Zhao, Qi Liu, Jiahui Kou, Xiaoyu Chen, Jun Gao, Shicheng Yan, and Zhigang ZouACS Applied Materials & Interfaces2011 3 (9), 3594-3601![Cover Image]()
Effect of Cofeeding Butane with Methanol on the Deactivation by Coke of a HZSM-5 Zeolite Catalyst
Andrés T. Aguayo, Pedro Castaño, Diana Mier, Ana G. Gayubo, Martin Olazar, and Javier BilbaoIndustrial & Engineering Chemistry Research2011 50 (17), 9980-9988![Cover Image]()
Anthropogenic Chemical Carbon Cycle for a Sustainable Future
George A. Olah, G. K. Surya Prakash, and Alain GoeppertJournal of the American Chemical Society2011 133 (33), 12881-12898![Cover Image]()
Non-redox Oxy-Insertion via Organometallic Baeyer–Villiger Transformations: A Computational Hammett Study of Platinum(II) Complexes
Travis M. Figg, Thomas R. Cundari, and T. Brent GunnoeOrganometallics2011 30 (14), 3779-3785![Cover Image]()
How Does the Nickel Pincer Complex Catalyze the Conversion of CO2 to a Methanol Derivative? A Computational Mechanistic Study
Fang Huang, Chenggen Zhang, Jinliang Jiang, Zhi-Xiang Wang, and Hairong GuanInorganic Chemistry2011 50 (8), 3816-3825![Cover Image]()
Reduction of CO2 on a Tricarbonyl Rhenium(I) Complex: Modeling a Catalytic Cycle
Jay Agarwal, Richard P. Johnson, and Gonghu LiThe Journal of Physical Chemistry A2011 115 (13), 2877-2881![Cover Image]()
Ionic Liquids and Dense Carbon Dioxide: A Beneficial Biphasic System for Catalysis
Fabian Jutz, Jean-Michel Andanson, and Alfons BaikerChemical Reviews2011 111 (2), 322-353![Cover Image]()
The Catalytic Role of N-Heterocyclic Carbene in a Metal-Free Conversion of Carbon Dioxide into Methanol: A Computational Mechanism Study
Fang Huang, Gang Lu, Lili Zhao, Haixia Liand Zhi-Xiang WangJournal of the American Chemical Society2010 132 (35), 12388-12396![Cover Image]()
Hydrogenation of Carbon Dioxide by Water: Alkali-Promoted Synthesis of Formate
Friedrich M. Hoffmann, Yixiong Yang, Jan Paul, Michael G. Whiteand Jan HrbekThe Journal of Physical Chemistry Letters2010 1 (14), 2130-2134![Cover Image]()
Polymer-Templated Nanospider TiO2 Thin Films for Efficient Photoelectrochemical Water Splitting
Honghan Fei, Yuchen Yang, David L. Rogow, Xiaojuan Fanand Scott R. J. OliverACS Applied Materials & Interfaces2010 2 (4), 974-979![Cover Image]()
Toward Solar Fuels: Photocatalytic Conversion of Carbon Dioxide to Hydrocarbons
Somnath C. Roy, Oomman K. Varghese, Maggie Pauloseand Craig A. GrimesACS Nano2010 4 (3), 1259-1278![Cover Image]()
A Mild Hydrothermal Route to Fix Carbon Dioxide to Simple Carboxylic Acids
Chao He, Ge Tian, Ziwei Liuand Shouhua FengOrganic Letters2010 12 (4), 649-651![Cover Image]()
Toward Solar Fuels: Photocatalytic Conversion of Carbon Dioxide to Hydrocarbons
Somnath C. Roy, Oomman K. Varghese, Maggie Pauloseand Craig A. GrimesACS Nano 0 (proofing),![Cover Image]()
Unexpected CO2 Splitting Reactions To Form CO with N-Heterocyclic Carbenes as Organocatalysts and Aromatic Aldehydes as Oxygen Acceptors
Liuqun Guand Yugen ZhangJournal of the American Chemical Society2010 132 (3), 914-915![Cover Image]()
A Mild Hydrothermal Route to Fix Carbon Dioxide to Simple Carboxylic Acids
Chao He, Ge Tian, Ziwei Liuand Shouhua FengOrganic Letters 0 (proofing),![Cover Image]()
A Carbide Catalyst Effective for the Dry Reforming of Methane at Atmospheric Pressure
Jun GuoAn-Jie ZhangAi-Min ZhuYong XuC. T. AuChuan Shi2010 (), 181-196![Cover Image]()
Unexpected CO2 Splitting Reactions To Form CO with N-Heterocyclic Carbenes as Organocatalysts and Aromatic Aldehydes as Oxygen Acceptors
Liuqun Guand Yugen ZhangJournal of the American Chemical Society 0 (proofing),
