Exposure to major volatile organic compounds and carbonyls in European indoor environments and associated health risk.
about
Removal of Indoor Volatile Organic Compounds via Photocatalytic Oxidation: A Short Review and ProspectMeasurements of Volatile Organic Compounds in a Newly Built Daycare CenterRecent trend in risk assessment of formaldehyde exposures from indoor airRisk-based indicators of Canadians' exposures to environmental carcinogensRe-evaluation of the WHO (2010) formaldehyde indoor air quality guideline for cancer risk assessmentA Review of the Field on Children’s Exposure to Environmental Contaminants: A Risk Assessment ApproachUnexpectedly high concentrations of monoterpenes in a study of UK homes.Behavior of VOCs and carbonyl compounds emission from different types of wallpapers in Korea.Assessment of indoor air concentrations of VOCs and their associated health risks in the library of Jawaharlal Nehru University, New Delhi.The indoor volatile organic compound (VOC) characteristics and source identification in a new university campus in Tianjin, China.Evaluation of Volatile Organic Compounds and Carbonyl Compounds Present in the Cabins of Newly Produced, Medium- and Large-Size Coaches in ChinaLevels of formaldehyde vapor released from embalmed cadavers in each dissection stage.Effect of resin content and substrate on the emission of BTEX and carbonyls from low-VOC water-based wall paint.Octanal-induced inflammatory responses in cells relevant for lung toxicity: expression and release of cytokines in A549 human alveolar cells.Volatile Organic Compounds in Anatomical Pathology Wards: Comparative and Qualitative Assessment of Indoor Airborne PollutionIndoor air quality in preschools (3- to 5-year-old children) in the Northeast of Portugal during spring-summer season: pollutants and comfort parameters.A systematic review of evidence and implications of spatial and seasonal variations of volatile organic compounds (VOC) in indoor human environments.Human health risks of formaldehyde indoor levels: An issue of concern.Assessing indoor air quality of school environments: transplanted lichen Pseudovernia furfuracea as a new tool for biomonitoring and bioaccumulation.Cancer risk from gaseous carbonyl compounds in indoor environment generated from household coal combustion in Xuanwei, China.Indoor air quality in Portuguese schools: levels and sources of pollutants.Factors controlling volatile organic compounds in dwellings in Melbourne, Australia.Oxidative damage and impairment of protein quality control systems in keratinocytes exposed to a volatile organic compounds cocktailVery volatile organic compounds: an understudied class of indoor air pollutants.Comparison of select analytes in exhaled aerosol from e-cigarettes with exhaled smoke from a conventional cigarette and exhaled breaths.Thermal and oxidative stability of the Ocimum basilicum L. essential oil/β-cyclodextrin supramolecular system.TiO₂ sol-gel for formaldehyde photodegradation using polymeric support: photocatalysis efficiency versus material stability.Assessment of filtration efficiency and physiological responses of selected plant species to indoor air pollutants (toluene and 2-ethylhexanol) under chamber conditions.The MERMAID study: indoor and outdoor average pollutant concentrations in 10 low-energy school buildings in France.Emission of air pollutants from burning candles with different composition in indoor environments.Indoor air quality of everyday use spaces dedicated to specific purposes-a review.Personal exposure and health risk assessment of carbonyls in family cars and public transports-a comparative study in Nanjing, China.Indoor air quality at life and work environments in Rome, Italy.Removal of traces of toluene and p-xylene in indoor air using biofiltration and a hybrid system (biofiltration + adsorption).Assessment of ventilation and indoor air pollutants in nursery and elementary schools in France.Formaldehyde and acetaldehyde exposure mitigation in US residences: in-home measurements of ventilation control and source control.A hybrid biological process of indoor air treatment for toluene removal.The toxicity of continuous long-term low-dose formaldehyde inhalation in mice.Evaluating the risk of mixtures in the indoor air of primary school classrooms.The relationship between solvent use and BTEX concentrations in occupational environments.
P2860
Q26770309-1A0C1092-C68E-4CDA-A609-75F2353958E9Q28385183-A9DC5492-27C3-4C05-B837-D9E64993ED8AQ28396526-57B41C7C-37E5-443A-9949-7A8586F76FE8Q28396943-3456B98E-A923-43B5-B0F5-71C86A62DE79Q29248021-BD6A5435-A901-4517-8C94-EDE059F6BB31Q29248586-6BC50177-D77B-4436-8922-28111D964E14Q33469863-E99EDA40-EC79-441C-9CFB-49523D948655Q33627950-DFB3F97A-D658-4E5A-82DC-2A43D2CF0D30Q34991676-262E30A4-BEB8-4033-B60F-C8B6204F21DBQ36268043-FB082765-35D5-4D6B-BFB1-4932A70C6A06Q37044838-2B24286A-3F9D-4C14-B831-DD7436CC19FAQ37156136-0469E9DB-BBD7-4980-8D3B-BB9D66A8F00DQ38411712-1716D2A0-BA22-49B5-A963-9CE1893B34E0Q38484540-0B2D580E-ADF7-45E7-8081-5AA227A50180Q38738607-FD9BF1DD-22B3-435D-BEC4-AA49536394EBQ38751371-7573D619-BF79-4708-84E0-2DCC779271E1Q38830990-5F228860-7610-4CE7-84B2-995CEDF918A5Q40088093-4CBA0D80-2042-4E19-8FC9-4390CA584CB5Q40155494-95DBF33D-AD12-483C-A1F9-DAC0838CDC7CQ40180554-2F59801D-B73B-4CB0-BFD1-2357B81DAFA0Q40728099-A61B3ABB-B841-4864-8B61-6FD02069A26CQ41195913-706C66F7-79B7-45FF-9219-9B3225614F77Q41633336-C9C39078-D349-4F36-BAD3-F5B52AF3F46BQ41731006-52927CCE-D91E-4917-A4B1-1411876B64D7Q43039648-9ED7A7AB-8EA6-46D9-987D-6B74C4C60785Q43075345-5287993C-EA93-4EF4-B515-312E50C7D115Q43313838-4BF48A8E-85DB-462E-A757-8D68E1B62739Q46281997-05D18DFD-8A61-450F-9757-503FCBC0A7D0Q46652623-4EBC31CE-B9E5-4CA1-A88B-DC1DAF413EAAQ46961970-C5526BC0-CBA7-47E3-9295-BC8E52D5B8F1Q47387982-A6D7BB63-CB15-48BA-AEA2-FD6AE6F34FCCQ47928988-DE3BCE97-33FE-457A-AB3D-64A15C523FA9Q47981957-486C6AF1-746E-42F3-9EA3-513CAB326213Q48137694-8759400A-DA6B-4051-9640-09E9EE73EE15Q48189540-869E4AAE-C9B6-4DF4-9061-5E96710D9308Q48267107-E04F0271-240D-48FF-9EBA-7B0A4F552A75Q50441942-F8EFB9FE-247B-4A9D-A181-C682DCFD98DFQ50478873-21FE3ED9-D347-4B27-859A-1DE86C495E56Q50551761-A79A228E-6E6B-45ED-B164-F95793F12432Q51142105-B53D9BF1-2CC8-4371-9278-4AA7B23075C3
P2860
Exposure to major volatile organic compounds and carbonyls in European indoor environments and associated health risk.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 26 February 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Exposure to major volatile org ...... ts and associated health risk.
@en
Exposure to major volatile org ...... ts and associated health risk.
@nl
type
label
Exposure to major volatile org ...... ts and associated health risk.
@en
Exposure to major volatile org ...... ts and associated health risk.
@nl
prefLabel
Exposure to major volatile org ...... ts and associated health risk.
@en
Exposure to major volatile org ...... ts and associated health risk.
@nl
P2093
P1476
Exposure to major volatile org ...... ts and associated health risk.
@en
P2093
Alberto Gotti
Dimosthenis A Sarigiannis
Spyros P Karakitsios
P304
P356
10.1016/J.ENVINT.2011.01.005
P577
2011-02-26T00:00:00Z