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Advantages of Solar Hydrogen Compared to Direct Carbon Dioxide Reduction for Solar Fuel ProductionCan Pb-Free Halide Double Perovskites Support High-Efficiency Solar Cells?N-Methylformamide as a Source of Methylammonium Ions in the Synthesis of Lead Halide Perovskite Nanocrystals and Bulk CrystalsInsights into Photosystem II from Isomorphous Difference Fourier Maps of Femtosecond X-ray Diffraction Data and Quantum Mechanics/Molecular Mechanics Structural Models.Highly Monodispersed PbS Quantum Dots for Outstanding Cascaded-Junction Solar Cells.A Silicon-Singlet Fission Tandem Solar Cell Exceeding 100% External Quantum Efficiency with High Spectral Stability.Electrochemical Reduction of Carbon Dioxide on Nitrogen-Doped Carbons: Insights from Isotopic Labeling Studies.Postsynthesis Transformation of Insulating Cs4PbBr6 Nanocrystals into Bright Perovskite CsPbBr3 through Physical and Chemical Extraction of CsBr.Colloidal CsPbX3 (X = Cl, Br, I) Nanocrystals 2.0: Zwitterionic Capping Ligands for Improved Durability and Stability.Efficient and Stable Silicon Microwire Photocathodes with a Nickel Silicide Interlayer for Operation in Strongly Alkaline Solutions.H2 Evolution with Covalent Organic Framework Photocatalysts.Crystallographic Data Support the Carousel Mechanism of Water Supply to the Oxygen-Evolving Complex of Photosystem II.Lead Halide Perovskite Nanocrystals in the Research Spotlight: Stability and Defect Tolerance.Semi-Interpenetrating Polymer Networks for Enhanced Supercapacitor Electrodes.Modeling the Performance Limitations and Prospects of Perovskite/Si Tandem Solar Cells under Realistic Operating Conditions.Recombination in Perovskite Solar Cells: Significance of Grain Boundaries, Interface Traps, and Defect Ions.Balancing Charge Carrier Transport in a Quantum Dot P-N Junction toward Hysteresis-Free High-Performance Solar Cells.High-Throughput Computational Assessment of Previously Synthesized Semiconductors for Photovoltaic and Photoelectrochemical DevicesFluorescent Alloy CsPb x Mn1-x I3 Perovskite Nanocrystals with High Structural and Optical Stability.Plasmonic Nanoparticles as Light-Harvesting Enhancers in Perovskite Solar Cells: A User's Guide.In Situ Fabrication and Reactivation of Highly Selective and Stable Ag Catalysts for Electrochemical CO2 Conversion.Evaluating the Stability of Co2P Electrocatalysts in the Hydrogen Evolution Reaction for Both Acidic and Alkaline Electrolytes.Enhanced n-Doping Efficiency of a Naphthalenediimide-Based Copolymer through Polar Side Chains for Organic Thermoelectrics.Vapour-Deposited Cesium Lead Iodide Perovskites: Microsecond Charge Carrier Lifetimes and Enhanced Photovoltaic Performance.Slow Cooling of Hot Polarons in Halide Perovskite Solar Cells.Efficient Near-Infrared-Transparent Perovskite Solar Cells Enabling Direct Comparison of 4-Terminal and Monolithic Perovskite/Silicon Tandem CellsPerformance Metrics Required of Next-Generation Batteries to Make a Practical Electric Semi TruckIn Situ Engineering of Double-Phase Interface in Mo/Mo2C Heteronanosheets for Boosted Hydrogen Evolution ReactionOptimization of Stable Quasi-Cubic FAxMA1–xPbI3 Perovskite Structure for Solar Cells with Efficiency beyond 20%Charge-Carrier Mobilities in Metal Halide Perovskites: Fundamental Mechanisms and LimitsPolycation Binders: An Effective Approach toward Lithium Polysulfide Sequestration in Li–S BatteriesAqueous Mg-Ion Battery Based on Polyimide Anode and Prussian Blue CathodeNew Insights into Mossy Li Induced Anode Degradation and Its Formation Mechanism in Li–S BatteriesImproved Charge Collection in Highly Efficient CsPbBrI2 Solar Cells with Light-Induced DealloyingWave Functions, Density Functionals, and Artificial Intelligence for Materials and Energy Research: Future Prospects and ChallengesRecent Advances in CO2 Reduction Electrocatalysis on CopperUnsupported Platinum-Based Electrocatalysts for Oxygen Reduction ReactionHighly Efficient Ruddlesden–Popper Halide Perovskite PA2MA4Pb5I16 Solar CellsTantalum Oxide Electron-Selective Heterocontacts for Silicon Photovoltaics and Photoelectrochemical Water ReductionA Case for Electrofuels
P1433
Q28314690-929F04B7-CA14-4086-B73F-4FC4C139CDDFQ28818123-A7816924-FE23-46DB-9793-9A83023B054BQ28818126-8227DF1C-8F06-47F6-8D31-842C807B1800Q54069279-7557A27B-85EB-4E74-94FF-5C22007ED4F7Q54868110-723DDA79-2490-4E04-9B0D-C4FAA0384B3EQ54889378-66DA316E-F6CE-4F27-8C96-89040C3EA08AQ54952021-3793F062-939E-4361-82E3-9EE8E5F93CB5Q54963132-042ADDE0-4EEF-4D47-A724-A645C759E5B0Q54974558-3346E236-6097-4D39-9BE1-30D4DE203070Q55005362-23CDC228-E537-4C12-8761-BA33173873CCQ55006938-3CE36394-E016-4632-AD6A-2C232AE5758BQ55012252-A936AF4D-1831-4F32-943F-79747E4887D7Q55022508-D6BA3CF0-0213-4CA9-8FEF-BD190AB21436Q55026942-CCABE6EF-BEA5-4C87-8E51-82EFF7EB5365Q55053553-6B1D96CF-2568-48D0-AE61-AA0C47325969Q55071624-2B9F91B3-C05E-431B-A909-30265CFB28B5Q55080644-C1C92441-1D8B-44A8-8991-34D28B3EB29CQ55084712-BAE385A9-564B-4F07-9702-B14C8810E582Q55085487-96F62DD8-14E1-4F8C-9281-458D3A7890C2Q55237604-6F6870A2-C19A-4892-9EA6-20C2AD39B0B9Q55240531-7E047957-1D88-4BC1-8B2B-471B248763DAQ55292475-062438A6-B293-4C1F-A3F2-CFFB6F2EC549Q55358833-A59D73AE-6A10-439D-9E10-A05FBDD64262Q55407114-6CA0F4C7-8E37-4958-B44B-38E252571C59Q55501031-7E4C7861-B75B-491D-9AF3-4FD29C83F77DQ56519356-F0967250-718C-4060-BF5E-7BB315F0FE6FQ56690281-23B2916C-16B1-48D8-A81C-2F5B1D466819Q56886547-231AC687-B93C-461A-8E5B-603A961A736BQ56995341-F6576DAA-5548-4A15-B9FF-A5B78933B5A0Q57277675-00B37841-C76F-4B8F-9333-228F48D8ED16Q57374683-8D560B53-B398-4935-822C-8CA6597952F4Q57401863-E37E21D9-4845-4F8F-9E38-391974A288F4Q57450118-52791F4F-17A5-4912-8A28-03784E239014Q57451758-049E3C6C-E378-48F6-AAE9-A8C6667A1F26Q57534263-626F5F02-8390-4717-AEAF-0E8B0506897BQ57566113-9F786FA6-E03C-425A-9C4D-26BD912A06A8Q57594813-D74710C5-CF6E-457C-AAA0-BBA51F81F2C9Q57623079-1BB0245E-9ED9-4B95-BD87-078851F12F74Q57623862-3D959157-9DF1-4084-A621-16C536606DCDQ57631655-DC781378-D70E-41A4-804F-0BCE4B3A0B88
P1433
description
journal
@en
revista científica
@es
wetenschappelijk tijdschrift van American Chemical Society
@nl
wissenschaftliche Fachzeitschrift
@de
name
ACS Energy Letters
@ast
ACS Energy Letters
@en
ACS Energy Letters
@es
ACS Energy Letters
@nl
ACS Energy Letters
@pl
type
label
ACS Energy Letters
@ast
ACS Energy Letters
@en
ACS Energy Letters
@es
ACS Energy Letters
@nl
ACS Energy Letters
@pl
prefLabel
ACS Energy Letters
@ast
ACS Energy Letters
@en
ACS Energy Letters
@es
ACS Energy Letters
@nl
ACS Energy Letters
@pl
P1055
P1156
21100832985