Effective density of particles from different combustion conditions and engineered TiO2 nanoparticles

J Leskinen, M Ihalainen, T Torvela, J Ruusunen, M Miettinen, I Nuutinen, Jussi Lyyränen, Ari Auvinen, J Joutsensaari, O Sippula, J Tissari, Jorma Jokiniemi

Research output: Contribution to conferenceConference articleScientificpeer-review

Abstract

It is widely accepted that combustion derived particulate matter (PM) is related to adverse health effects in humans. However, it is still unclear, what is the mechanism behind these effects, and which properties of the PM (size, shape, chemical composition, surface properties) besides of mass concentration are relevant. Therefore, detailed analyses of the PM properties are needed
Original languageEnglish
Publication statusPublished - 2013
MoE publication typeNot Eligible
EventEuropean Aerosol Conference, EAC 2013 - Prague, Czech Republic
Duration: 1 Sep 20136 Sep 2013
http://cas.icpf.cas.cz/eac2013/ (Conference homepage)

Conference

ConferenceEuropean Aerosol Conference, EAC 2013
Abbreviated titleEAC 2013
CountryCzech Republic
CityPrague
Period1/09/136/09/13
Internet address

Fingerprint

particulate matter
combustion
chemical composition
nanoparticle
particle
effect
health

Keywords

  • Effective density
  • particle characerization
  • biomass burning
  • nanoparticle

Cite this

Leskinen, J., Ihalainen, M., Torvela, T., Ruusunen, J., Miettinen, M., Nuutinen, I., ... Jokiniemi, J. (2013). Effective density of particles from different combustion conditions and engineered TiO2 nanoparticles. Paper presented at European Aerosol Conference, EAC 2013, Prague, Czech Republic.
Leskinen, J ; Ihalainen, M ; Torvela, T ; Ruusunen, J ; Miettinen, M ; Nuutinen, I ; Lyyränen, Jussi ; Auvinen, Ari ; Joutsensaari, J ; Sippula, O ; Tissari, J ; Jokiniemi, Jorma. / Effective density of particles from different combustion conditions and engineered TiO2 nanoparticles. Paper presented at European Aerosol Conference, EAC 2013, Prague, Czech Republic.
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abstract = "It is widely accepted that combustion derived particulate matter (PM) is related to adverse health effects in humans. However, it is still unclear, what is the mechanism behind these effects, and which properties of the PM (size, shape, chemical composition, surface properties) besides of mass concentration are relevant. Therefore, detailed analyses of the PM properties are needed",
keywords = "Effective density, particle characerization, biomass burning, nanoparticle",
author = "J Leskinen and M Ihalainen and T Torvela and J Ruusunen and M Miettinen and I Nuutinen and Jussi Lyyr{\"a}nen and Ari Auvinen and J Joutsensaari and O Sippula and J Tissari and Jorma Jokiniemi",
note = "Project code: TRAFI 77652; European Aerosol Conference, EAC 2013, EAC 2013 ; Conference date: 01-09-2013 Through 06-09-2013",
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Leskinen, J, Ihalainen, M, Torvela, T, Ruusunen, J, Miettinen, M, Nuutinen, I, Lyyränen, J, Auvinen, A, Joutsensaari, J, Sippula, O, Tissari, J & Jokiniemi, J 2013, 'Effective density of particles from different combustion conditions and engineered TiO2 nanoparticles', Paper presented at European Aerosol Conference, EAC 2013, Prague, Czech Republic, 1/09/13 - 6/09/13.

Effective density of particles from different combustion conditions and engineered TiO2 nanoparticles. / Leskinen, J; Ihalainen, M; Torvela, T; Ruusunen, J; Miettinen, M; Nuutinen, I; Lyyränen, Jussi; Auvinen, Ari; Joutsensaari, J; Sippula, O; Tissari, J; Jokiniemi, Jorma.

2013. Paper presented at European Aerosol Conference, EAC 2013, Prague, Czech Republic.

Research output: Contribution to conferenceConference articleScientificpeer-review

TY - CONF

T1 - Effective density of particles from different combustion conditions and engineered TiO2 nanoparticles

AU - Leskinen, J

AU - Ihalainen, M

AU - Torvela, T

AU - Ruusunen, J

AU - Miettinen, M

AU - Nuutinen, I

AU - Lyyränen, Jussi

AU - Auvinen, Ari

AU - Joutsensaari, J

AU - Sippula, O

AU - Tissari, J

AU - Jokiniemi, Jorma

N1 - Project code: TRAFI 77652

PY - 2013

Y1 - 2013

N2 - It is widely accepted that combustion derived particulate matter (PM) is related to adverse health effects in humans. However, it is still unclear, what is the mechanism behind these effects, and which properties of the PM (size, shape, chemical composition, surface properties) besides of mass concentration are relevant. Therefore, detailed analyses of the PM properties are needed

AB - It is widely accepted that combustion derived particulate matter (PM) is related to adverse health effects in humans. However, it is still unclear, what is the mechanism behind these effects, and which properties of the PM (size, shape, chemical composition, surface properties) besides of mass concentration are relevant. Therefore, detailed analyses of the PM properties are needed

KW - Effective density

KW - particle characerization

KW - biomass burning

KW - nanoparticle

M3 - Conference article

ER -

Leskinen J, Ihalainen M, Torvela T, Ruusunen J, Miettinen M, Nuutinen I et al. Effective density of particles from different combustion conditions and engineered TiO2 nanoparticles. 2013. Paper presented at European Aerosol Conference, EAC 2013, Prague, Czech Republic.