Beyond oil and gas: the methanol economy.
暂无分享,去创建一个
[1] G. E. Morris,et al. Conversion of methanol to 2,2,3-trimethylbutane (triptane) over indium(III) iodide. , 2007, Inorganic chemistry.
[2] S. Jensen,et al. Hydrogen and synthetic fuel production from renewable energy sources , 2007 .
[3] Frank Zeman,et al. Energy and material balance of CO2 capture from ambient air. , 2007, Environmental science & technology.
[4] R. Doornbosch,et al. Biofuels: is the cure worse than the disease? , 2007 .
[5] Bjørn Lomborg. Cool It: The Skeptical Environmentalist's Guide to Global Warming , 2007 .
[6] N. Tsubaki,et al. Catalytic Oxidation of Dimethyl Ether to Dimethoxymethane over Cs Modified H3PW12O40/SiO2 Catalysts , 2007 .
[7] R. Grubbs,et al. Enhanced selectivity in the conversion of methanol to 2,2,3-trimethylbutane (triptane) over zinc iodide by added phosphorous or hypophosphorous acid. , 2007, Chemical communications.
[8] P. Kharecha,et al. Implications of “peak oil” for atmospheric CO2 and climate , 2007, 0704.2782.
[9] Ray Boswell,et al. Resource potential of methane hydrate coming into focus , 2007 .
[10] James Turner,et al. Alcohol-based fuels in high performance engines , 2007 .
[11] N. Stern. The Economics of Climate Change: Implications of Climate Change for Development , 2007 .
[12] H. L. Miller,et al. Climate Change 2007: The Physical Science Basis , 2007 .
[13] Steve Ritter. HYDROGEN STORAGE GETS A BOOST , 2007 .
[14] Barbra Harvie,et al. A study on the EU oil shale industry-viewed in the light of the Estonian experience , 2007 .
[15] David Pimentel,et al. Ethanol production: energy, economic, and environmental losses. , 2007, Reviews of environmental contamination and toxicology.
[16] D. Tilman,et al. Carbon-Negative Biofuels from Low-Input High-Diversity Grassland Biomass , 2006, Science.
[17] J. Bongaarts. United Nations Department of Economic and Social Affairs, Population Division World Mortality Report 2005 , 2006 .
[18] R. Steeneveldt,et al. CO2 Capture and Storage: Closing the Knowing–Doing Gap , 2006 .
[19] Anne C. Co,et al. A review of the aqueous electrochemical reduction of CO2 to hydrocarbons at copper , 2006 .
[20] K. Bradsher. Pollution From Chinese Coal Casts a Global Shadow , 2006 .
[21] R. Borup,et al. Dimethyl ether (DME) as an alternative fuel , 2006 .
[22] K. E. Livo. Return to the Moon: Exploration, Enterprise, and Energy in the Human Settlement of Space.Harrison Schmitt (SEG 2001 F). 352 Pp. Copernicus Books, Springer Science + Business Media, New York. 2005. ISBN 0-387-24285-6. Price US$25. , 2006 .
[23] Glenn Hess. OIL SHALE RESEARCH IS MOVING FORWARD: Oil from shale promises big payoff, but high costs and pollution pose hurdles , 2006 .
[24] 오라 조지에이.,et al. Selective oxidative conversion of methane to methanol, dimethyl ether and derived products , 2006 .
[25] K. Ohta,et al. Photoelectrochemical reduction of carbon dioxide at p-type gallium arsenide and p-type indium phosphide electrodes in methanol , 2006 .
[26] F. Hahn,et al. Mechanism of di(methyl)ether (DME) electrooxidation at platinum electrodes in acid medium , 2006 .
[27] Matsutani Akihiko. Shrinking-population Economics: Lessons From Japan , 2006 .
[28] Jeffery B. Greenblatt,et al. An Integrated Optimization Of Large-Scale Wind With Variable Rating Coupled To Compressed Air Energy Storage , 2006 .
[29] J Muth. Renewable fuels for advanced powertrains , 2006 .
[30] T Morgan. The hydrogen economy - a non technical review , 2006 .
[31] P. Ehrenfreund,et al. Astrochemistry of dimethyl ether , 2006 .
[32] R Vance,et al. Uranium 2005: Resources, Production and Demand , 2006 .
[33] Joseph Romm,et al. The hype about hydrogen , 2006, IEEE Engineering Management Review.
[34] Bryce J. Stokes,et al. Biomass as Feedstock for A Bioenergy and Bioproducts Industry: The Technical Feasibility of a Billion-Ton Annual Supply , 2005 .
[35] R. Kirk,et al. Rain, winds and haze during the Huygens probe's descent to Titan's surface , 2005, Nature.
[36] Terje Fuglerud,et al. Recent advancements in ethylene and propylene production using the UOP/Hydro MTO process , 2005 .
[37] F. Arnold,et al. Direct Conversion of Ethane to Ethanol by Engineered Cytochrome P450 BM3 , 2005, Chembiochem : a European journal of chemical biology.
[38] G. Hess. ETHANOL WINS BIG IN ENERGY POLICY , 2005 .
[39] R N Schock. Energy Technologies for the 21st Century-The Roles of Renewable Energy , 2005 .
[40] Omar M Yaghi,et al. Strategies for hydrogen storage in metal--organic frameworks. , 2005, Angewandte Chemie.
[41] George A. Olah,et al. Beyond Oil and Gas: The Methanol Economy , 2005 .
[42] R. Socolow,et al. Can we bury global warming? , 2005, Scientific American.
[43] S. Bell,et al. The heme monooxygenase cytochrome P450cam can be engineered to oxidize ethane to ethanol. , 2005, Angewandte Chemie.
[44] C. L. Archer,et al. Evaluation of global wind power , 2005 .
[45] Richard Heinberg. The Party's Over: Oil, War, and the Fate of Industrial Societies , 2005 .
[46] M. Simmons. Twilight in the Desert: The Coming Saudi Oil Shock and the World Economy , 2005 .
[47] Robert L. McCormick,et al. Regulated and Unregulated Exhaust Emissions Comparison for Three Tier II Non-Road Diesel Engines Operating on Ethanol- Diesel Blends , 2005 .
[48] Jeff Johnson. LNG WEIGHS ANCHOR , 2005 .
[49] Nathan S. Lewis,et al. Basic Research Needs for Solar Energy Utilization: report of the Basic Energy Sciences Workshop on Solar Energy Utilization, April 18-21, 2005 , 2005 .
[50] D. Pimentel,et al. Ethanol Production Using Corn, Switchgrass, and Wood; Biodiesel Production Using Soybean and Sunflower , 2005 .
[51] Steven Ashley. On the road to fuel-cell cars. , 2005, Scientific American.
[52] K. Deffeyes. Beyond Oil: The View from Hubbert's Peak , 2005 .
[53] Vaclav Smil,et al. Energy at the Crossroads: Global Perspectives and Uncertainties , 2005 .
[54] Penelope Kim Crowther,et al. The party's over , 2005, Nature.
[55] Omar M Yaghi,et al. Metal-organic frameworks with exceptionally high capacity for storage of carbon dioxide at room temperature. , 2005, Journal of the American Chemical Society.
[56] K. Deffeyes. Hubbert’s Peak: The Impending World Oil Shortage , 2008 .
[57] D. D. De Vos,et al. Gold redox catalysis for selective oxidation of methane to methanol. , 2005, Angewandte Chemie.
[58] Jeff Johnson,et al. PUTTING A LID ON CARBON DIOXIDE , 2004 .
[59] Chunshan Song,et al. Tri-reforming of methane: a novel concept for catalytic production of industrially useful synthesis gas with desired H2/CO ratios , 2004 .
[60] Masahiro Saito,et al. Development of high performance Cu/ZnO-based catalysts for methanol synthesis and the water-gas shift reaction , 2004 .
[61] Sandia Report,et al. Guidance on risk analysis and safety implications of a large liquefied natural gas (LNG) spill over water. , 2004 .
[62] A. Kouchi,et al. Hydrogenation of CO on Pure Solid CO and CO-H2O Mixed Ice , 2004 .
[63] Eric Johnson,et al. Direct methanol fuel cells – ready to go commercial? , 2004 .
[64] T. Patzek. Thermodynamics of the Corn-Ethanol Biofuel Cycle , 2004 .
[65] S. Solanki,et al. Unusual activity of the Sun during recent decades compared to the previous 11,000 years , 2004, Nature.
[66] Michael Batty,et al. The Coming Oil Crisis , 2004 .
[67] E. Torres,et al. Enzymatic activation of alkanes: constraints and prospective , 2004 .
[68] R. Periana,et al. Perspectives on some challenges and approaches for developing the next generation of selective, low temperature, oxidation catalysts for alkane hydroxylation based on the CH activation reaction , 2004 .
[69] Michael C. Ruppert,et al. Crossing the Rubicon: The Decline of the American Empire at the End of the Age of Oil , 2004 .
[70] W. Goddard,et al. Selective oxidation of methane to methanol catalyzed, with C-H activation, by homogeneous, cationic gold. , 2004, Angewandte Chemie.
[71] Brooks Hanson,et al. Not So Simple , 2004, Science.
[72] R. Service. The Carbon Conundrum , 2004, Science.
[73] Amnon Einav,et al. Solar Energy Research and Development Achievements in Israel and Their Practical Significance , 2004 .
[74] Subbarao Surampudi,et al. High efficiency direct methanol fuel cell based on poly(styrenesulfonic) acid (PSSA)–poly(vinylidene fluoride) (PVDF) composite membranes , 2004 .
[75] Michael Epstein,et al. Solar Gasification of Biomass: A Molten Salt Pyrolysis Study , 2004 .
[76] L. Maugeri,et al. Oil: Never Cry Wolf--Why the Petroleum Age Is Far from over , 2004, Science.
[77] Jean Laherrere,et al. THE FUTURE OF OIL. , 2004 .
[78] In-Hwan Oh,et al. Recent progress in passive direct methanol fuel cells at KIST , 2004 .
[79] J. Ivy,et al. Summary of Electrolytic Hydrogen Production: Milestone Completion Report , 2004 .
[80] Halim Hamid,et al. Handbook of MTBE and Other Gasoline Oxygenates , 2004 .
[81] S. Srinivasan,et al. International activities in DMFC R&D: status of technologies and potential applications , 2004 .
[82] Joseph J. Romm,et al. The Hype About Hydrogen: Fact and Fiction in the Race to Save the Climate , 2004 .
[83] George A. Olah,et al. After Oil and Gas: Methanol Economy , 2004 .
[84] E. McFarland,et al. C1 Coupling via bromine activation and tandem catalytic condensation and neutralization over CaO/zeolite composites. , 2004, Chemical communications.
[85] Erin Boyd. Commercialization of a New Stove and Fuel System for Household Energy in Ethiopia Using Ethanol from Sugar Cane Residues and Methanol from Natural Gas Project Overview , 2004 .
[86] Hirano,et al. Dimethyl Ether Synthesis from Carbon Dioxide by Catalytic Hydrogenation (Part 2) Hybrid Catalyst Consisting of Methanol Synthesis and Methanol Dehydration Catalysts , 2004 .
[87] U. C. Bureau. Statistical Abstract of the United States , 2004 .
[88] P. Fischer. Unconventional gas resources fill the gap in future supplies , 2004 .
[89] J. Hecht. US plans 'take-away' nuclear power plants , 2004 .
[90] Jeff Johnson. Power from moving water , 2004 .
[91] Jeff Johnson,et al. GETTING TO 'CLEAN COAL' , 2004 .
[92] Peter R. Odell. Why carbon fuels will dominate the 21st century's global energy economy , 2004 .
[93] David L. Greene,et al. Running Out of and Into Oil: Analyzing Global Oil Depletion and Transition Through 2050 , 2004 .
[94] Kenneth A. Burke. UNITIZED REGENERATIVE FUEL CELL SYSTEM DEVELOPMENT , 2003 .
[95] George A. Olah,et al. The Methanol Economy , 2003 .
[96] Gjermund Gravir,et al. Emission from international sea transportation and environmental impact , 2003 .
[97] S. Venkatesh,et al. Safety and Performance Assessment of Ethanol/Diesel Blends (E-Diesel) , 2003 .
[98] U. Bossel,et al. The Future of the Hydrogen Economy: Bright or Bleak? , 2003 .
[99] A. Maureen Rouhi. CITRUS CHEMISTRY BOOSTS DRUGS: Small company bets on grapefruit compounds that enhance the oral bioavailability of drugs , 2003 .
[100] David Pimentel,et al. Ethanol Fuels: Energy Balance, Economics, and Environmental Impacts Are Negative , 2003 .
[101] R. Friesner,et al. Mechanistic studies on the hydroxylation of methane by methane monooxygenase. , 2003, Chemical reviews.
[102] William L. Leffler,et al. Deepwater Petroleum Exploration & Production: A Nontechnical Guide , 2003 .
[103] G. I. Lin,et al. Fundamentals of Methanol Synthesis and Decomposition , 2003 .
[104] Robert Bent Lloyd Orr. Energy : science, policy, and the pursuit of sustainability , 2003 .
[105] Robert M. Neilson,et al. Geothermal energy reduces greenhouse gases , 2003 .
[106] Barbara Freese. Coal: A Human History , 2003 .
[107] Takashi Ogawa,et al. Direct Dimethyl Ether Synthesis , 2003 .
[108] Bryan S. Pivovar,et al. Direct Methanol Fuel Cells , 2003 .
[109] J. R. Dyni,et al. GEOLOGY AND RESOURCES OF SOME WORLD OIL-SHALE DEPOSITS , 2003, Oil Shale.
[110] So-Hee An,et al. Prospects for Carbon Capture and Storage Technologies , 2003 .
[111] Schwartztrauber,et al. Office of Civilian Radioactive Waste Management , 2003 .
[112] V. Ostrovskii. Mechanisms of methanol synthesis from hydrogen and carbon oxides at Cu–Zn-containing catalysts in the context of some fundamental problems of heterogeneous catalysis , 2002 .
[113] R. Periana,et al. High yield conversion of methane to methyl bisulfate catalyzed by iodine cations. , 2002, Chemical communications.
[114] A. Clément,et al. Wave energy in Europe: current status and perspectives , 2002 .
[115] Michael Q. Wang,et al. The Energy Balance of Corn Ethanol: An Update , 2002 .
[116] H. Schobert. Energy and Society: An Introduction , 2002 .
[117] Blair P. Bromley,et al. Tomorrow’s Energy: Hydrogen, Fuel Cells, and the Prospects for a Cleaner Planet , 2002 .
[118] Thomas A. Milne,et al. Hydrogen from biomass: state of the art and research challenges , 2002 .
[119] U. S. Doe. A Technology Roadmap for Generation IV Nuclear Energy Systems , 2002 .
[120] R. Kelly. The Carbon Conundrum: Global Warming and Energy Policy in the Third Millennium , 2002 .
[121] EVALUATION OF THE FATE AND TRANSPORT OF METHANOL IN THE ENVIRONMENT , 2002 .
[122] David William Keith,et al. Climate Strategy with Co2 Capture from the Air , 2006 .
[123] Ye Wang,et al. Direct conversion of methane into oxygenates , 2001 .
[124] Bruce E. Johansen. The Global Warming Desk Reference , 2001 .
[125] J. Garbak,et al. Dimethoxy Methane in Diesel Fuel: Part 1. The Effect of Fuels and Engine Operating Modes on Emissions of Toxic Air Pollutants and Gas/Solid Phase PAH , 2001 .
[126] G. Hutchings,et al. Methanol to hydrocarbons , 2001 .
[127] T. Kodama,et al. Kinetics of metal oxide-catalyzed CO2 gasification of coal in a fluidized-bed reactor for solar thermochemical process , 2001 .
[128] R. Essenhigh. Does CO2 Really Drive Global Warming? , 2001 .
[129] Antonino S. Aricò,et al. DMFCs: From Fundamental Aspects to Technology Development , 2001 .
[130] P. Nilsson. Industrial uses of biomass energy. The example of Brazil , 2001 .
[131] David W. Keith,et al. Climate Strategy with Co2 Capture from the Air , 2001 .
[132] Copernicus Copernicus,et al. Future prospects for production of methanol and hydrogen from biomass , 2001 .
[133] Bjørn Lomborg,et al. The Skeptical Environmentalist , 2001 .
[134] J. Lunsford. CATALYTIC CONVERSION OF METHANE TO MORE USEFUL CHEMICALS AND FUELS: A CHALLENGE FOR THE 21ST CENTURY , 2000 .
[135] G. B. Shul’pin,et al. Catalytic functionalization of methane , 2000 .
[136] Brian C. Black. Petrolia: The Landscape of America's First Oil Boom , 2000 .
[137] Yutaka Tamaura,et al. Coal gasification by CO2 gas bubbling in molten salt for solar/fossil energy hybridization , 2000 .
[138] N. Azuma,et al. Partial Oxidation of Methane on Silica-Supported Silicomolybdic Acid Catalysts in an Excess Amount of Water Vapor , 2000 .
[139] Kaoru Fujimoto,et al. Effective utilization of remote coal through dimethyl ether synthesis , 2000 .
[140] Bent Sørensen,et al. Renewable energy : its physics, engineering, use, environmental impacts, economy and planning aspects , 2000 .
[141] Robert C. Morris. The environmental case for nuclear power : economic, medical, and political considerations , 2000 .
[142] Harry Stokes,et al. METHANOL - THE OTHER ALCOHOL A BRIDGE TO A SUSTAINABLE CLEAN LIQUID FUEL , 2000 .
[143] Tom Koppel. Powering the Future: The Ballard Fuel Cell and the Race to Change the World , 1999 .
[144] T. Mizuno,et al. ELECTROCHEMICAL REDUCTION OF CARBON DIOXIDE TO HYDROCARBONS WITH HIGH FARADAIC EFFICIENCY IN LIOH/METHANOL , 1999 .
[145] T. Tsotsis,et al. The development of a dual fluidized-bed reactor system for the conversion of hydrogen chloride to chlorine , 1999 .
[146] T. Sigfusson,et al. Converting CO2 emissions and hydrogen into methanol vehicle fuel , 1999 .
[147] R. Stott,et al. The World Bank , 2008, Annals of tropical medicine and parasitology.
[148] M. Bradford,et al. CO2 Reforming of CH4 , 1999 .
[149] J. Leggett. The Carbon War: Global Warming and the End of the Oil Era , 1999 .
[150] J. K. Donnelly,et al. Nuclear Energy in Industry: Application to Oil Production , 1999 .
[151] Atul K. Jain,et al. Lifetimes and global warming potentials for dimethyl ether and for fluorinated ethers: CH3OCF3 (E143a), CHF2OCHF2 (E134), CHF2OCF3 (E125) , 1998 .
[152] T. A. Milne,et al. Biomass Gasifier "Tars": Their Nature, Formation, and Conversion , 1998 .
[153] M. Saito. R&D activities in Japan on methanol synthesis from CO2 and H2 , 1998 .
[154] Meyer Steinberg,et al. Fossil fuel decarbonization technology for mitigating global warming , 1998 .
[155] M. Specht,et al. Comparison of the renewable transportation fuels, liquid hydrogen and methanol, with gasoline—Energetic and economic aspects , 1998 .
[156] Mohammad Modarres,et al. Commercial Nuclear Power: Assuring Safety for the Future , 1998 .
[157] J. Laherrère,et al. The End of Cheap Oil , 1998 .
[158] H. Rogner. AN ASSESSMENT OF WORLD HYDROCARBON RESOURCES , 1997 .
[159] J. Stopford,et al. International Business: An Emerging Vision , 1998 .
[160] G. Ertl,et al. Handbook of Heterogeneous Catalysis , 1997 .
[161] John D. Lipscomb,et al. Dioxygen Activation by Enzymes Containing Binuclear Non-Heme Iron Clusters. , 1996, Chemical reviews.
[162] Jacob A. Moulijn,et al. Mitigation of CO2 by Chemical Conversion: Plausible Chemical Reactions and Promising Products , 1996 .
[163] Robert H. Crabtree,et al. Aspects of Methane Chemistry , 1995 .
[164] H. W. Pohl. Hydrogen and other alternative fuels for air and ground transportation , 1995 .
[165] T. Tsotsis,et al. Process for Converting Hydrogen Chloride to Chlorine , 1994 .
[166] T. Turek,et al. The Catalytic Hydrogenolysis of Esters to Alcohols , 1994 .
[167] Morton Rothstein,et al. The Industrial Revolution in World History , 1994 .
[168] Subbarao Surampudi,et al. Advances in direct oxidation methanol fuel cells , 1994 .
[169] Harold H. Kung,et al. Methanol production and use , 1994 .
[170] J. Rabo. Catalysis: Past, Present and Future , 1994 .
[171] H. Ahlafi,et al. Methyl tert-Butyl Ether and Ethyl tert-Butyl Ether. Synthesis over Triflic Acid Modified Y-Zeolite , 1993 .
[172] E. Wolf,et al. Partial oxidation of methane on mo/sn/p silica supported catalysts , 1993 .
[173] R. Periana,et al. A Mercury-Catalyzed, High-Yield System for the Oxidation of Methane to Methanol , 1993, Science.
[174] J. Suls. The Self in social perspective , 1993 .
[175] A. Gabbard,et al. Coal combustion: Nuclear resource or danger , 1993 .
[176] P. Sands. The United Nations Framework Convention on Climate Change , 1992 .
[177] D. Yergin. The Prize: The Epic Quest for Oil, Money, and Power , 1990 .
[178] Chris J. Green,et al. Dimethyl Ether as a Methanol Ignition Improver: Substitution Requirements and Exhaust Emissions Impact , 1990 .
[179] E. Supp,et al. How to Produce Methanol from Coal , 1990 .
[180] Sunggyu Lee,et al. Methanol Synthesis Technology , 1989 .
[181] H. Hiller. In: Ullmann''''s Encyclopedia of Industrial Chemistry , 1989 .
[182] J. Wallace,et al. The Use of Dimethyl Ether as a Starting Aid for Methanol-Fueled SI Engines at Low Temperatures , 1988 .
[183] F. Dovring. Farming For Fuel , 1988 .
[184] G. Olah. Electrophilic methane conversion , 1987 .
[185] Friedrich Asinger. Methanol — Chemie und Energierohstoff , 1986 .
[186] J. Tadmor. Radioactivity from coal-fired power plants: A review , 1986 .
[187] C. L. Gray,et al. Moving America to methanol , 1985 .
[188] K. Lammertsma,et al. Selective monohalogenation of methane over supported acid or platinum metal catalysts and hydrolysis of methyl halides over γ-alumina-supported metal oxide/hydroxide catalysts: a feasible path for the oxidative conversion of methane into methyl alcohol/dimethyl ether , 1985 .
[189] K. Lammertsma,et al. Onium Ylide chemistry. 1. Bifunctional acid-base-catalyzed conversion of heterosubstituted methanes into ethylene and derived hydrocarbons. The onium ylide mechanism of the C1 .fwdarw. C2 conversion , 1984 .
[190] Harry Rothman,et al. Energy From Alcohol: The Brazilian Experience , 1983 .
[191] H. J. Haepp,et al. The Effect of Methanol/Diesel Fuel Emulsions on the Mixture Formation in Direct-injection Diesel Engines: A Theory on Spontaneous Evaporation , 1983 .
[192] K. Rosing,et al. The future of oil: World oil resources and use , 1983 .
[193] Graham. Hydrogen: Energy Vector of the Future , 1983 .
[194] C. Tilly. The State Tradition in Western Europe: A Study of an Idea and an Institution. By Dyson Kenneth H. F.. (New York: Oxford University Press, 1980. Pp. viii + 310. $19.95.) , 1981, American Political Science Review.
[195] Michael Seibert,et al. Photobiological production of hydrogen , 1980 .
[196] V. Mahajan,et al. Innovation Diffusion and New Product Growth Models in Marketing , 1979 .
[197] W G Dupree,et al. ENERGY CONSUMPTION IN THE TRANSPORTATION SECTOR , 1977 .
[198] A. B. Stiles. Methanol, past, present, and speculation on the future , 1977 .
[199] B. Velimirovic. REPORT FROM WHO , 1977 .
[200] D. Mitrany. New Horizons for Management , 1976 .
[201] P. Schilling,et al. ELECTROPHILIC REACTIONS AT SINGLE BONDS PART 17, SBF5, ALCL3, AND AGSBF6 CATALYZED CHLORINATION AND CHLOROLYSIS OF ALKANES AND CYCLOALKANES , 1974 .
[202] T. B. Reed,et al. Methanol: A Versatile Fuel for Immediate Use , 1973, Science.
[203] P. Schilling,et al. Electrophilic reactions at single bonds. XVII. Antimony pentafluoride aluminum trichloride, and silver antimony hexafluoride catalyzed chlorination and chlorolysis of alkanes and cycloalkanes , 1973 .
[204] John Edward Brantly,et al. History of Oil Well Drilling , 1971 .
[205] T. E. Allibone,et al. The Future of Nuclear Power , 1966, Nature.
[206] J. K.,et al. Industrial Organic Chemistry , 1938, Nature.
[207] S. Arrhenius. “On the Infl uence of Carbonic Acid in the Air upon the Temperature of the Ground” (1896) , 2017, The Future of Nature.
[208] E. E. L O G A N. Microbial Fuel Cells : Methodology and Technology † , 2022 .