about
Molecular characteristics of Kraft-AQ pulping lignin fractionated by sequential organic solvent extractionEnzymatic digestibility and ethanol fermentability of AFEX-treated starch-rich lignocellulosics such as corn silage and whole corn plantMapping oil and gas development potential in the US Intermountain West and estimating impacts to speciesAssessing biofuel crop invasiveness: a case studyShale gas, wind and water: assessing the potential cumulative impacts of energy development on ecosystem services within the Marcellus play.Photoelectron Spectroscopy at the Graphene-Liquid Interface Reveals the Electronic Structure of an Electrodeposited Cobalt/Graphene Electrocatalyst.Conducting polymer PPy nanowire-based triboelectric nanogenerator and its application for self-powered electrochemical cathodic protection.Recent advances on polyoxometalate-based molecular and composite materials.Pediatric asthma and ambient pollutant levels in industrializing nations.Evaluating the impact of gas extraction infrastructure on the occupancy of sagebrush-obligate songbirds.Highly Active 2D Layered MoS 2 -rGO Hybrids for Energy Conversion and Storage Applications.Perovskite/Carbon Composites: Applications in Oxygen Electrocatalysis.DFT characterization on the mechanism of water splitting catalyzed by single-Ru-substituted polyoxometalates.Concentration dependence of graphene oxide-nanoneedle manganese oxide composites reduced by hydrazine hydrate for an electrochemical supercapacitor.Development of high power and energy density microsphere silicon carbide-MnO2 nanoneedles and thermally oxidized activated carbon asymmetric electrochemical supercapacitors.Control under times of uncertainty: the relationship between hospital competition and physician-patient disputes.Supercapacitive behavior depending on the mesopore size of three-dimensional micro-, meso- and macroporous silicon carbide for supercapacitors.Highly Efficient and Stable Water-Oxidation Electrocatalysis with a Very Low Overpotential using FeNiP Substitutional-Solid-Solution Nanoplate Arrays.A Cu3P-CoP hybrid nanowire array: a superior electrocatalyst for acidic hydrogen evolution reactions.The effects of exfoliation, organic solvents and anodic activation on the catalytic hydrogen evolution reaction of tungsten disulfide.Benzoate Anion-Intercalated Layered Cobalt Hydroxide Nanoarray: An Efficient Electrocatalyst for the Oxygen Evolution Reaction.Anion-exchange synthesis of a nanoporous crystalline CoB2O4 nanowire array for high-performance water oxidation electrocatalysis in borate solution.Homologous Catalysts Based on Fe-Doped CoP Nanoarrays for High-Performance Full Water Splitting under Benign Conditions.A NiCo2O4@Ni-Co-Ci core-shell nanowire array as an efficient electrocatalyst for water oxidation at near-neutral pH.Three-dimensional metal-organic framework derived porous CoP3 concave polyhedrons as superior bifunctional electrocatalysts for the evolution of hydrogen and oxygen.Ni(OH)2-Fe2P hybrid nanoarray for alkaline hydrogen evolution reaction with superior activity.In situ development of amorphous Mn-Co-P shell on MnCo2O4 nanowire array for superior oxygen evolution electrocatalysis in alkaline media.Graphitic carbon nitride (g-C3N4) coated titanium oxide nanotube arrays with enhanced photo-electrochemical performance.A p-nitroaniline redox-active solid-state electrolyte for battery-like electrochemical capacitive energy storage combined with an asymmetric supercapacitor based on metal oxide functionalized β-polytype porous silicon carbide electrodes.Three-Dimensional Nickel-Borate Nanosheets Array for Efficient Oxygen Evolution at Near-Neutral pH.An Efficient and Reusable Embedded Ru Catalyst for the Hydrogenolysis of Levulinic Acid to γ-Valerolactone.Effects of different electrolytes on the electrochemical and dynamic behavior of electric double layer capacitors based on a porous silicon carbide electrode.Self-supported three-dimensional mesoporous semimetallic WP2 nanowire arrays on carbon cloth as a flexible cathode for efficient hydrogen evolution.Electrodeposited Co-doped NiSe2 nanoparticles film: a good electrocatalyst for efficient water splitting.A self-assembled, multicomponent water oxidation device.Nickel sulfide microsphere film on Ni foam as an efficient bifunctional electrocatalyst for overall water splitting.Low-temperature iron-catalyzed depolymerization of polyethers.Zinc-catalyzed depolymerization of artificial polyethers.Photochemical, electrochemical, and photoelectrochemical water oxidation catalyzed by water-soluble mononuclear ruthenium complexes.A hybrid polyoxometalate-organic molecular catalyst for visible light driven water oxidation.
P2860
Q28744466-D38118D1-DD67-4564-AA51-517533FCBDFBQ28750461-68390EE2-66D2-4B0A-BC27-AE8A42FF9414Q28750797-9D2CAD06-49DA-42A5-90BD-CE2D75C23E05Q28754744-AB96678A-E15C-4E10-BA10-D81A04BD7B1DQ30392235-4A812A9A-E92B-4FBD-94D3-A42310011340Q33466339-4547AA87-BD0E-421A-A522-9F04C6FE678DQ37708116-959C5211-DE66-46D8-8703-0A04BD17664FQ38031112-18078CFC-FCA9-41DF-AEAF-788C22F4B7BCQ38282818-D4E4AC04-40CA-46EE-B926-11A0C127D63DQ38385883-23B90C2E-CBEB-457E-8207-79F4944C2789Q38639049-962D7DFC-2F3F-49FC-B286-4FADDFFA1236Q38762885-150A2680-DBC5-4DCE-B4C6-CE078C9955EEQ44456627-5295B646-DA8C-4B42-AFC7-A7F3BE4964B5Q46598641-F0B2AE94-375F-4198-8D7A-5EABEEEA4D9CQ46898964-AE910004-3AED-486C-8AA3-0A4A726F57EBQ47141349-564603C2-AC4A-4CC9-9B87-EDFCB50D8B84Q47412829-447DC5CD-B971-4E6B-9EE8-E05174287B8AQ47421927-75703A45-59D0-4567-8A1E-17CFDB56142AQ47422907-0ABAC43F-CAFD-4297-9CBC-D4EB4FFD9532Q47720408-0B81CD80-BF8B-4605-B128-14BB9E8ACF8CQ47755497-C89C92BF-5046-4F49-AD09-DBABD24776E5Q47919654-6502E708-50D6-4BB8-8893-AFC1A43246FBQ47942467-3A11586C-D4A6-41DF-8442-DA1087270198Q47991745-6446333F-EB3B-4471-80CD-B757A1690F9CQ48050661-E699E8FB-C638-47E5-964E-322AD02A72EEQ50042155-4ED8A328-BABD-463C-AD10-F20BA1F075F9Q50074446-903E1A24-CBBD-4F46-A6CD-1C44273F4F22Q50234735-BA88736F-487A-47F5-88A0-5FD396403EF4Q50897622-FA795306-53E0-40DB-8718-AD2118B22131Q50934103-6DF2F09F-6628-493D-8C4A-CE117A7F336AQ50950732-E65FCBE7-B77C-4B3E-BDD6-5B81269EFED2Q50967234-FC4A7EE9-2F92-44D2-B933-3DA56CE4EF7BQ51095097-4A089183-1771-4C4C-A499-6608A9A8C6D7Q51528805-9C431D64-EF92-452B-917B-DBB7291D21E7Q51557338-EE318527-6006-4948-9698-E4003A2DF33FQ51608566-59F68EE4-CACA-4FA8-8AD0-35DD595B1320Q52888140-5A10489E-4D14-4EDE-A984-CE760FB28A1EQ52890162-778195FD-634A-4E4C-AC9A-7D51F5B1F882Q53153860-AF6CEC9F-308B-4BE0-895D-E570ABE02176Q53469015-D9E2D079-C15D-4844-878D-D5FDD81C348E
P2860
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Energy resources and global development.
@en
type
label
Energy resources and global development.
@en
prefLabel
Energy resources and global development.
@en
P2093
P356
P1433
P1476
Energy resources and global development.
@en
P2093
Jeffrey Chow
Paul R Portney
Raymond J Kopp
P304
P356
10.1126/SCIENCE.1091939
P407
P577
2003-11-01T00:00:00Z