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Identification of Sporopollenin as the Outer Layer of Cell Wall in Microalga Chlorella protothecoides.Nitrogen-Based Fuels: A Power-to-Fuel-to-Power AnalysisNear-Infrared Colloidal Quantum Dots for Efficient and Durable Photoelectrochemical Solar-Driven Hydrogen ProductionEvidence from in situ X-ray absorption spectroscopy for the involvement of terminal disulfide in the reduction of protons by an amorphous molybdenum sulfide electrocatalystAll-graphene-battery: bridging the gap between supercapacitors and lithium ion batteriesDiscovery of true electrochemical reactions for ultrahigh catalyst mass activity in water splitting.Manganese oxides supported on gold nanoparticles: new findings and current controversies for the role of gold.Nanostructured manganese oxide on silica aerogel: a new catalyst toward water oxidation.Phenothiazine-azaBODIPY-fullerene supramolecules: syntheses, structural characterization, and photochemical studies.Enhanced photoelectrocatalytic performance of α-Fe2O3 thin films by surface plasmon resonance of Au nanoparticles coupled with surface passivation by atom layer deposition of Al2O3.Hydrogen Generation using non-polar coaxial InGaN/GaN Multiple Quantum Well Structure Formed on Hollow n-GaN NanowiresA H2-evolving photocathode based on direct sensitization of MoS3 with an organic photovoltaic cell.Nano-architecture and material designs for water splitting photoelectrodes.Graphene-based materials for hydrogen generation from light-driven water splitting.Facet-dependent photocatalytic properties of TiO(2) -based composites for energy conversion and environmental remediation.Highly Active 2D Layered MoS 2 -rGO Hybrids for Energy Conversion and Storage Applications.Conversion of toluene and water to methylcyclohexane and oxygen using niobium-doped strontium titanate photoelectrodes.Tuning Optical and Electron Donor Properties by Peripheral Thio-Aryl Substitution of Subphthalocyanine: A New Series of Donor-Acceptor Hybrids for Photoinduced Charge Separation.Design principles for maximizing photovoltage in metal-oxide-protected water-splitting photoanodes.A Weibull statistics-based lignocellulose saccharification model and a built-in parameter accurately predict lignocellulose hydrolysis performance.Robust hierarchical 3D carbon foam electrode for efficient water electrolysisHydrogen.BiVO(4)/CuWO(4) heterojunction photoanodes for efficient solar driven water oxidation.TiO2 single crystal with four-truncated-bipyramid morphology as an efficient photocatalyst for hydrogen production.Treatment considerations with aldosterone receptor antagonists.Pseudocapacitive hausmannite nanoparticles with (101) facets: synthesis, characterization, and charge-transfer mechanism.Reversible Electrocatalytic Activity of Carbon-Supported Ptx Ni1-x in Hydrogen Reactions.A miniaturized microbial fuel cell with three-dimensional graphene macroporous scaffold anode demonstrating a record power density of over 10,000 W m(-3) .Alcohol and water adsorption in zeolitic imidazolate frameworks.On global energy scenario, dye-sensitized solar cells and the promise of nanotechnology.Electronic excitations in light absorbers for photoelectrochemical energy conversion: first principles calculations based on many body perturbation theory.Oxygen-rich microporous carbons with exceptional hydrogen storage capacity.Dealloying-directed synthesis of efficient mesoporous CoFe-based catalysts towards the oxygen evolution reaction and overall water splitting.Interface Manipulation to Improve Plasmon-Coupled Photoelectrochemical Water Splitting on α-Fe2 O3 Photoanodes.MOF-derived iron as an active energy storage material for intermediate-temperature solid oxide iron-air redox batteries.High-density defects on PdAg nanowire networks as catalytic hot spots for efficient dehydrogenation of formic acid and reduction of nitrate.Effect of Spacer Connecting the Secondary Electron Donor Phenothiazine in Subphthalocyanine-Fullerene Conjugates in Promoting Electron Transfer Followed by Hole Shift Process.Strongly Coupled Oxasmaragdyrin-BF2 Chelated Dipyrrin Dyads: Syntheses, X-ray Structure, Ground- and Excited-State Charge-Transfer Interactions.MnFe2 O4 Nanocrystals Wrapped in a Porous Organic Polymer: A Designed Architecture for Water-Splitting Photocatalysis.Silicification-induced cell aggregation for the sustainable production of H2 under aerobic conditions.
P2860
Q27324303-93D32189-490E-4655-8D6C-7A1969FBD97CQ28079873-24A3A340-C0F0-49D4-AE08-F9374F81CDAFQ28595833-A6DE2FAA-ACDF-48C4-A724-0C52048DE7A3Q28651610-684656EC-82C3-458B-8A82-E7CFA95CD301Q28658263-C904666A-5CEE-400B-894A-F6A2DC3211F5Q30836258-F8C5B8A6-A674-4902-8D6C-E4B492D903EDQ30972259-7C7121F9-88D4-4953-8681-C44D405ADE91Q31066895-4376A3FA-302F-498D-A949-6B42345B1D7DQ35371777-34652F01-C9D5-4172-8FE5-257A865B3C9DQ36100877-B8726884-189D-4D3B-AFCE-227EBF47EB99Q37200326-2AF91B41-CAE6-4E7D-93C5-7BE7547492F7Q37433747-B0B19686-16A9-49B4-BFF6-6C760D873047Q38024022-8AD250D8-9F3F-4078-9998-6F9DE5FFAEEBQ38118227-C2FB5448-FF8C-457C-80CD-D84952E86F82Q38188511-D15E3D87-B833-4FA1-A99B-68F727901844Q38639049-CB70E1FD-F3CE-4403-9419-013BB1BE5C66Q39156737-CAAFD636-EB8C-404B-8E51-DFF6446A28E9Q39498153-923F5EE3-37A4-4AA3-8AF2-1BCFA4F160DAQ40416584-E1E2A334-6D56-450D-85A9-C22DD446327AQ40786634-8B643636-B8F9-44EE-B81C-AB8EA83A11AEQ41094428-7AA01893-29C6-40AF-852C-F52FF0D7B405Q42119716-FDF5C673-1633-4152-BEB2-0A53B2C29038Q43838199-A6BE332F-035F-4664-9063-A08725A7CE5BQ44042719-9AF656FC-E6A9-4735-BBA1-24AC3C444CC4Q44962245-3000F2A7-5FDB-4DA6-BA37-5BAAF6F3411DQ45394654-F2E621C2-61B4-41AF-8A90-649DB23F969AQ46487067-E66D2E83-15B9-4AA3-AA48-D8475E3CE54BQ46605866-6596FEA4-38D8-4590-907A-84CF9247960EQ46792079-D5DF9658-7DC4-4055-958C-5A1AFDBC4A4CQ46922762-C0DE0BD4-0EBB-4D52-8995-54A235B96DF0Q46935596-485DC7F3-8999-4A60-8CF8-B2581601F36FQ47096086-1A068C8F-D4FC-414E-9A63-56B58B622426Q47416956-98805E35-010D-4C33-A788-B6CD8F9583E3Q47643449-A075FDEB-11CD-4D39-A763-88AB10CCBB69Q47686680-2D186D06-D215-44C2-A8B2-1B910E5153A4Q47957826-D499FB70-C1D3-4CAD-BCE2-18586B4BB765Q48043526-EF5B6CAB-8661-4CB1-B608-E0693837BECDQ48053585-F62BED72-C650-4AC4-8B12-096EF584A035Q48293315-01077B55-6E34-4E8B-8836-E29908A56D5CQ50247952-6A0C0EE2-01E8-4480-A336-77005A7F6FDB
P2860
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
A realizable renewable energy future
@en
type
label
A realizable renewable energy future
@en
prefLabel
A realizable renewable energy future
@en
P1433
P1476
A realizable renewable energy future
@en
P2093
P304
P356
10.1126/SCIENCE.285.5428.687
P407
P577
1999-07-01T00:00:00Z