0000000000408781

AUTHOR

Yinon Rudich

showing 5 related works from this author

A comprehensive characterization of ice nucleation by three different types of cellulose particles immersed in water: lessons learned and future rese…

2018

We present the laboratory results of immersion freezing efficiencies of cellulose particles at supercooled temperature (T) conditions. Three types of chemically homogeneous cellulose samples are used as surrogates that represent supermicron and submicron ice nucleating plant structural polymers. These samples include micro-crystalline cellulose (MCC), fibrous cellulose (FC) and nano-crystalline cellulose (NCC). Our experimental data show that particles resembling the MCC lab particle occur also in the atmosphere. Our immersion freezing dataset includes data from various ice nucleation measurement techniques available at seventeen different institutions, including nine dry dispersion and ele…

Accuracy and precisionMaterials science010504 meteorology & atmospheric sciencesAnalytical chemistry01 natural scienceschemistry.chemical_compoundchemistrySpectral slopeIce nucleusParticleCelluloseSupercoolingDispersion (chemistry)Order of magnitude0105 earth and related environmental sciences
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Effective broadband refractive index retrieval by a white light optical particle counter.

2009

A new approach to retrieve the effective broadband refractive indices (nbroad,eff) of aerosol particles by a white light aerosol spectrometer (WELAS) optical particle counter (OPC) is presented. Using a tandem differential mobility analyzer (DMA)-OPC system, the nbroad,eff are obtained for both laboratory and field applications. This method was tested in the laboratory using substances with a wide range of optical properties. With the obtained nbroad,eff, WELAS aerosol size distributions can be corrected. Therefore, this method can be used for instrument calibration in both laboratory and field measurements. The retrieved effective broadband refractive indices for the scattering aerosols we…

AerosolsSpectrometerLightScatteringChemistryAtmosphereSpectrum AnalysisAnalytical chemistryGeneral Physics and AstronomyAerosolPhotometryWavelengthRefractometryDifferential mobility analyzerCalibrationParticulate MatterGasesPhysical and Theoretical ChemistryParticle SizeParticle counterRefractive indexEnvironmental MonitoringPhysical chemistry chemical physics : PCCP
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High Pressure Inside Nanometer-Sized Particles Influences the Rate and Products of Chemical Reactions

2021

International audience; The composition of organic aerosol has a pivotal influence on aerosol properties such as toxicity and cloud droplet formation capability, which could affect both climate and air quality. However, a comprehensive and fundamental understanding of the chemical and physical processes that occur in nanometer-sized atmospheric particles remains a challenge that severely limits the quantification and predictive capabilities of aerosol formation pathways. Here, we investigated the effects of a fundamental and hitherto unconsidered physical property of nanoparticles-the Laplace pressure. By studying the reaction of glyoxal with ammonium sulfate, both ubiquitous and important …

AerosolsChemical process[PHYS]Physics [physics]Ammonium sulfateMaterials scienceGlyoxalGeneral Chemistry010501 environmental sciences01 natural sciencesChemical reactionPhysical propertyAerosolchemistry.chemical_compound[SPI]Engineering Sciences [physics]Reaction rate constantchemistryChemical engineeringAmmonium Sulfate13. Climate actionUltrafine particleEnvironmental Chemistry[CHIM]Chemical SciencesParticulate MatterLaplace pressure0105 earth and related environmental sciencesEnvironmental Science & Technology
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The formation, properties and impact of secondary organic aerosol: Current and emerging issues

2009

Hallquist, M. Wenger, J. C. Baltensperger, U. Rudich, Y. Simpson, D. Claeys, M. Dommen, J. Donahue, N. M. George, C. Goldstein, A. H. Hamilton, J. F. Herrmann, H. Hoffmann, T. Iinuma, Y. Jang, M. Jenkin, M. E. Jimenez, J. L. Kiendler-Scharr, A. Maenhaut, W. McFiggans, G. Mentel, Th. F. Monod, A. Prevot, A. S. H. Seinfeld, J. H. Surratt, J. D. Szmigielski, R. Wildt, J.; Secondary organic aerosol (SOA) accounts for a significant fraction of ambient tropospheric aerosol and a detailed knowledge of the formation, properties and transformation of SOA is therefore required to evaluate its impact on atmospheric processes, climate and human health. The chemical and physical processes associated wit…

humic-like substancesAtmospheric Scienceenvironmental chamber data010504 meteorology & atmospheric sciences010501 environmental sciences01 natural sciencessupercritical-fluid extractionlcsh:Chemistrychemistry.chemical_compoundHuman healthddc:550catalyzed heterogeneous reactionsProcess engineeringairborne particulate matter0105 earth and related environmental sciencesTropospheric aerosolpolycyclic aromatic-hydrocarbonsinitiated atmospheric oxidationAtmospheric modelsbusiness.industryPharmacology. Therapy[CHIM.CATA] Chemical Sciences/Catalysis[CHIM.CATA]Chemical Sciences/Catalysischromatography-mass spectrometrylcsh:QC1-999JAerosolChemistrylcsh:QD1-999chemistry13. Climate actionEnvironmental chemistryEarth and Environmental Scienceslow-molecular-weightAerosol mass spectrometrytropospheric chemistry mechanismOrganic componentCurrent (fluid)/dk/atira/pure/subjectarea/asjc/1900/1902businesslcsh:PhysicsOrganosulfate
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Suppression of new particle formation from monoterpene oxidation by NO<sub>x</sub>

2014

Abstract. The impact of nitrogen oxides (NOx = NO + NO2) on new particle formation (NPF) and on photochemical ozone production from real plant volatile organic compound (BVOC) emissions was studied in a laboratory setup. At high NOx conditions ([BVOC] / [NOx] < 7, [NOx] > 23 ppb) new particle formation was suppressed. Instead, photochemical ozone formation was observed resulting in higher hydroxyl radical (OH) and lower nitrogen monoxide (NO) concentrations. When [NO] was reduced back to levels below 1 ppb by OH reactions, NPF was observed. Adding high amounts of NOx caused NPF to be slowed by orders of magnitude compared to analogous experiments at low NOx conditions ([NOx] ~300 ppt)…

chemistry.chemical_classificationAtmospheric Science010504 meteorology & atmospheric sciencesMonoterpeneRadicalPhotodissociation010501 environmental sciencesRate-determining stepPhotochemistry01 natural sciencesOrganic compoundchemistry.chemical_compoundchemistry13. Climate actionParticleHydroxyl radicalNOx0105 earth and related environmental sciencesAtmospheric Chemistry and Physics
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