Search results for "Energy engineering"

showing 10 items of 1099 documents

Strategies for Exploring Functions from Dynamic Combinatorial Libraries

2020

chemistry.chemical_classification010405 organic chemistryComputer scienceMechanical EngineeringSupramolecular chemistryEnergy Engineering and Power TechnologyNanotechnologyManagement Science and Operations Research010402 general chemistry01 natural sciencesKinetic control0104 chemical scienceschemistryDynamic combinatorial chemistryNon-covalent interactionsChemSystemsChem
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Synergy of Axial and Point Chirality to Construct Helical N -Heterotriangulene-Based Supramolecular Polymers

2018

chemistry.chemical_classificationAtropisomerMaterials science010405 organic chemistryRenewable Energy Sustainability and the EnvironmentEnergy Engineering and Power TechnologyCooperativity010402 general chemistry01 natural sciencesHelicity0104 chemical sciencesBiomaterialsSupramolecular polymerschemistryChemical physicsMaterials ChemistryPoint (geometry)Chirality (chemistry)ChemNanoMat
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Amine N-Oxide Kinetic Hydrate Inhibitor Polymers for High-Salinity Applications

2020

A series of glycidyl amine N-oxide polyethers with cyclic and acyclic amine N-oxide side groups and their block copolymers with poly(propylene) oxide (Mn in the range of 1.8–6.4 kg/mol) have been s...

chemistry.chemical_classificationGeneral Chemical EngineeringOxideEnergy Engineering and Power Technology02 engineering and technologyPolymer021001 nanoscience & nanotechnologyKinetic energySalinitychemistry.chemical_compoundFuel Technology020401 chemical engineeringchemistryPolymer chemistryCopolymerAmine gas treating0204 chemical engineering0210 nano-technologyHydrateEnergy & Fuels
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Design and characterization of bi-functional electrocatalytic layers for application in PEM unitized regenerative fuel cells

2010

Abstract Results concerning the development and characterization of bi-functional electrocatalytic layers for application in unitized regenerative fuel cells (URFCs) based on proton exchange membrane (PEM) technology are reported. Carbon-supported hydrophobic (10 wt.% of PTFE) Pt catalysts (40 wt.% of Pt), and Pt and Ir black powders of large specific areas have been synthesized. Their structure, morphology and electrochemical properties have been investigated using SEM, TEM, XRD analysis, and by measurements of polarization curves and cyclic voltammograms. Current–voltage curves have been recorded during water electrolysis and H 2 /O 2 fuel cell experiments to evaluate their performances a…

chemistry.chemical_classificationMaterials scienceElectrolysis of waterRenewable Energy Sustainability and the EnvironmentAnalytical chemistryEnergy Engineering and Power TechnologyProton exchange membrane fuel cellPolymerCondensed Matter PhysicsElectrochemistryAnodeCatalysisFuel TechnologyMembraneChemical engineeringchemistryPolarization (electrochemistry)International Journal of Hydrogen Energy
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A Facile Strategy to Create Electrocatalysts of Highly Dispersive Ni–Mo Sulfide Nanosheets on Graphene by Derivation of Polyoxometalate Coordination …

2021

chemistry.chemical_classificationMaterials scienceSulfideGrapheneCoordination polymerEnergy Engineering and Power Technologylaw.inventionchemistry.chemical_compoundchemistryChemical engineeringlawPolyoxometalateMaterials ChemistryElectrochemistryChemical Engineering (miscellaneous)Electrical and Electronic EngineeringACS Applied Energy Materials
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Fully Vacuum-Processed Wide Band Gap Mixed-Halide Perovskite Solar Cells

2017

Methylammonium lead mixed-halide perovskites MAPb(BrxI1–x)3 are promising materials for the preparation of tandem devices. When exposed to light, MAPb(BrxI1–x)3 segregates in iodide- and bromide-rich phases, limiting the achievable photovoltage and hence the attainable device efficiency. To date only solution-processed mixed-halide perovskites have been demonstrated. We present fully vacuum-deposited mixed-halide perovskite thin films with band gap of 1.72 and 1.87 eV, prepared by controlling the deposition rates of the different halide precursors. When used in thin-film devices, these materials lead to power conversion efficiencies of 15.9 and 10.5%, respectively, which are among the highe…

chemistry.chemical_classificationMaterials scienceTandemRenewable Energy Sustainability and the EnvironmentBand gapbusiness.industryIodideWide-bandgap semiconductorEnergy Engineering and Power TechnologyHalide02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesFuel TechnologychemistryChemistry (miscellaneous)Materials ChemistryOptoelectronicsThin film0210 nano-technologybusinessDeposition (law)Perovskite (structure)ACS Energy Letters
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Photovoltaic Properties of a Porphyrin-Containing Polymer as Donor in Bulk Heterojunction Solar Cells With Low Energy Loss

2017

chemistry.chemical_classificationMaterials sciencebusiness.industryPhotovoltaic systemEnergy conversion efficiencyEnergy Engineering and Power Technology02 engineering and technologyPolymer010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesPorphyrinAtomic and Molecular Physics and OpticsPolymer solar cell0104 chemical sciencesElectronic Optical and Magnetic Materialschemistry.chemical_compoundLow energychemistryOptoelectronicsElectrical and Electronic Engineering0210 nano-technologybusinessSolar RRL
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Investigation on lithium/polymer electrolyte interface for high performance lithium rechargeable batteries

1997

Abstract Performance data of several linear and cross-linked polymer electrolytes are reported and the electrochemical criteria for the selection of electrolytes to be used in electric vehicle lithium metal batteries are discussed. Further, laboratory lithium cells with LiMn2O4 composite cathode were tested to ascertain the effective viability of these polymer in solid-state batteries and preliminary results are reported. This study clearly demonstrates the importance of a broad-based electrochemical characterization in selecting an electrolyte for lithium metal batteries.

chemistry.chemical_classificationMaterials sciencebusiness.product_categoryLithium vanadium phosphate batteryRenewable Energy Sustainability and the EnvironmentInorganic chemistryEnergy Engineering and Power Technologychemistry.chemical_elementElectrolytePolymerElectrochemistrychemistry.chemical_compoundchemistryChemical engineeringElectric vehicleIonic conductivityLithiumLithium oxideElectrical and Electronic EngineeringPhysical and Theoretical ChemistrybusinessJournal of Power Sources
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PBI-based composite membranes for polymer fuel cells

2010

Abstract In the present study poly(2,2-(2,6-pyridin)-5,5-bibenzimidazole) was used for the preparation of novel MEAs for high-temperature polymer fuel cells (HT-PEMFCs). We prepared hybrid materials with two types of silica fillers in order to increase the MEA performances using this polymer. The membranes were characterized in terms of their microstructure and thermal stability. Cell operation tests and Electrochemical Impedance Spectroscopy were used for the characterization of the MEAs. A maximum power density of about 80 mW cm−2 was obtained at 300 mA cm−2 by using an imidazole-modified silica filler. The EIS technique showed that the fillers chiefly help to reduce the charge transfer r…

chemistry.chemical_classificationProton exchange membrane PBI Electrochemical Impedance SpectroscopyFiller (packaging)Materials scienceRenewable Energy Sustainability and the EnvironmentAnalytical chemistryEnergy Engineering and Power TechnologyProton exchange membrane fuel cellPolymerMicrostructureDielectric spectroscopyMembranechemistryChemical engineeringProton exchange membrane PBI Electrochemical Impedance SpectroscopyThermal stabilityElectrical and Electronic EngineeringPhysical and Theoretical ChemistryHybrid material
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Biogas Cleaning by Hydrogen Sulfide Scrubbing and Bio-oxidation of Captured Sulfides

2015

Hydrogen sulfide and partially carbon dioxide can be absorbed into alkaline washing liquid with nitrates for upgrading a quality of biogas. Sulfides captured into the washing liquid are consequently biologically oxidized in an anoxic bioreactor by autotrophic denitrifying bacteria. Nitrates in the washing liquid serve as electron acceptors for sulfide bio-oxidation. Washing of hydrogen sulfide from biogas was examined in a lab-scale countercurrent scrubber that was packed with plastic carriers and operated at different biogas and washing liquid flows. The hydrogen sulfide concentration in treated biogas was investigated in the range from 3 to 12.3 g m–3. The influence of the hydrogen sulfid…

chemistry.chemical_classificationSulfideChemistryGeneral Chemical EngineeringHydrogen sulfideInorganic chemistryEnergy Engineering and Power TechnologyScrubberAnoxic watersDenitrifying bacteriachemistry.chemical_compoundFuel TechnologyBiogasBioreactorData scrubbingEnergy & Fuels
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