Reactions at surfaces in the atmosphere: integration of experiments and theory as necessary (but not necessarily sufficient) for predicting the physical chemistry of aerosols.
about
Heterogeneous photochemistry in the atmosphereMineral dust aerosols promote the formation of toxic nitropolycyclic aromatic compoundsStructure, dynamics and stability of water/scCO2/mineral interfaces from ab initio molecular dynamics simulationsAtmospheric chemistry of bioaerosols: heterogeneous and multiphase reactions with atmospheric oxidants and other trace gases.Collision dynamics and reactive uptake of OH radicals at liquid surfaces of atmospheric interest.Gas-phase water-mediated equilibrium between methylglyoxal and its geminal diolHeterogeneous oxidation kinetics of organic biomass burning aerosol surrogates by O3, NO2, N2O5, and NO3.Spectroscopic signatures of ozone at the air-water interface and photochemistry implications.Photodissociation dynamics of ClCN at different wavelengths.Hydroxyl radical oxidation of phospholipid-coated NaCl particles.Inelastic scattering of OH radicals from organic liquids: isolating the thermal desorption channel.Bubble bursting as an aerosol generation mechanism during an oil spill in the deep-sea environment: laboratory experimental demonstration of the transport pathway.Nanoscopic characterization of the water vapor-salt interfacial layer reveals a unique biphasic adsorption process.Fenton chemistry at aqueous interfaces.Quantifying trace gas uptake to tropospheric aerosol: recent advances and remaining challenges.Atmospheric processes on ice nanoparticles in molecular beams.Introductory lecture: atmospheric chemistry in the Anthropocene.Deciphering the aqueous chemistry of glyoxal oxidation with hydrogen peroxide using molecular imaging.Computational Insights into the CH3 Cl+OH Chemical Reaction Dynamics at the Air-Water Interface.Tropospheric aerosol as a reactive intermediate.Molecular dynamics simulations of the water adsorption around malonic acid aerosol models.Mass spectrometry of aerosol particle analogues in molecular beam experiments.Note: A combined aerodynamic lens/ambient pressure x-ray photoelectron spectroscopy experiment for the on-stream investigation of aerosol surfaces.Photochemistry of nitrate chemisorbed on various metal oxide surfaces.Linking electronic and molecular structure: insight into aqueous chloride solvation.Bubble bursting as an aerosol generation mechanism during an oil spill in the deep-sea environment: molecular dynamics simulations of oil alkanes and dispersants in atmospheric air/salt water interfaces.Impacts of cloud water droplets on the OH production rate from peroxide photolysis.Probing RbBr solvation in freestanding sub-2 nm water clusters.Atomistic simulation of ion solvation in water explains surface preference of halides.The Effect of Moisture on the Hydrolysis of Basic Salts.Spectral characterization and surface complexation modeling of low molecular weight organics on hematite nanoparticles: role of electrolytes in the binding mechanismReview of the bulk and surface chemistry of iron in atmospherically relevant systems containing humic-like substancesDRIFTS studies on the photosensitized transformation of gallic acid by iron(iii) chloride as a model for HULIS in atmospheric aerosolsThe role of long-lived reactive oxygen intermediates in the reaction of ozone with aerosol particlesUnderstanding the role of the ground surface in HONO vertical structure: High resolution vertical profiles during NACHTT-11Thermodynamics of hydronium and hydroxide surface solvationOrganic nitrogen in aerosols and precipitation at Barbados and Miami: Implications regarding sources, transport and deposition to the western subtropical North AtlanticFormation and Growth of Clusters of Sulfur DioxideTechnical note: Monte Carlo genetic algorithm (MCGA) for model analysis of multiphase chemical kinetics to determine transport and reaction rate coefficients using multiple experimental data setsOrganic molecules on the surface of water droplets – an energetic perspective
P2860
Q28603533-FDCC25AF-1816-4A25-A5B8-1ABE85CA627BQ28604299-6A03F40A-2C56-47BA-BEC4-19408EC670F2Q28606536-EE490B95-6729-4514-984A-099179619F4FQ33744079-0C54A03C-F5BD-45E8-99FA-720F587A9B72Q33847966-2A18B1D5-2DCD-4189-BCCE-87D94C631395Q33859273-E834BDC7-F9C9-41FA-B76B-D293473AD140Q34054671-72E82658-5D3A-4118-8FB2-9D36F8B31896Q34060817-D35F3F1F-E026-468F-B513-75704138C710Q34070402-63CDB0F4-8F0F-4B3B-8C45-AA74CE17379BQ34724629-4319D61C-B180-42E1-BA97-0526C213D0AAQ34786312-83F8FA4B-D0FB-40B7-B22C-A14AECA6BA70Q35057694-5B605EEF-7515-4E28-9C77-42517C9FEDB3Q37177025-8B80287E-F990-4C88-A1B9-4D18240903A9Q37495159-7CB750CD-F0CB-46FB-BD69-8E726077F1D3Q38015702-D5E03340-25CE-4C12-A719-3F4A99852AE6Q38208845-4F7C9A89-C2D3-4027-A824-2F95AC9C1F94Q38661313-838A3700-9548-4851-BD31-869A1C4D061FQ42699019-96E236B2-C065-486C-A864-5D07FC065DBBQ42699077-7A452A37-08EC-4430-B260-33AB052799B8Q43741990-183A5283-90DA-42E7-91D1-0B6D49557907Q44395487-C2320EEE-4735-4239-8453-ECDB6F6BDDDCQ46253638-63407BFD-E458-49EA-9079-4564B93153E0Q46551964-F262995C-CA4D-4BD6-87B1-56CF12D1DEBFQ46694700-7C3471C0-C7E3-46F6-824F-8243CCBBD3BDQ46740140-2C9375BF-A86E-40B8-973F-8798DD4AC69FQ46964606-7B4C7E4A-E5B7-412B-85ED-54512F0855D6Q47786438-BE2F24C8-408C-4AA6-A30F-82EEECE4E3A5Q47895543-03108B43-8203-4BFB-B64C-1625B274C8E9Q50416489-8C600CF8-03B7-4F8B-80C7-1055505886B1Q51132010-182FD705-D632-4E84-BBDF-E62DB9094135Q56882576-E966A10B-A842-4EDE-B74B-AAE13217A7C0Q56882577-16CAD7F5-AFF1-4B8E-886A-A7D95908B267Q56882592-E887C167-FF90-49C6-A70D-88E5F37DE48DQ57113266-BE04942D-592F-443B-BAF9-4A8EB6972742Q57445217-D0B5B813-F97E-4099-810B-286A34DC52B4Q57588701-0880D2D3-AC19-4BED-B92D-692A34E58F95Q58062312-1C29FFDA-1CDC-4B91-81A6-0B89D6A66C34Q58094759-80BAC48F-9D44-4C84-85A8-3EAF25B6B003Q58248451-BF6238DD-BF2D-423C-A52F-577A8EF64DD0Q58827945-34443477-7457-49F4-9B34-35C0875374FE
P2860
Reactions at surfaces in the atmosphere: integration of experiments and theory as necessary (but not necessarily sufficient) for predicting the physical chemistry of aerosols.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 27 July 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Reactions at surfaces in the a ...... hysical chemistry of aerosols.
@en
Reactions at surfaces in the a ...... iments and theory as necessary
@nl
type
label
Reactions at surfaces in the a ...... hysical chemistry of aerosols.
@en
Reactions at surfaces in the a ...... iments and theory as necessary
@nl
prefLabel
Reactions at surfaces in the a ...... hysical chemistry of aerosols.
@en
Reactions at surfaces in the a ...... iments and theory as necessary
@nl
P356
P1476
Reactions at surfaces in the a ...... hysical chemistry of aerosols.
@en
P2093
Barbara J Finlayson-Pitts
P2860
P304
P356
10.1039/B906540G
P407
P577
2009-07-27T00:00:00Z