Search results for "IAQ"

showing 10 items of 528 documents

CCDC 1904524: Experimental Crystal Structure Determination

2019

Related Article: Diogo Galico, Riccardo Marin, Gabriel Brunet, Dylan Errulat, Eva Hemmer, Fernando Sigoli, Jani Moilanen, Muralee Murugesu|2019|Chem.-Eur.J.|25|14625|doi:10.1002/chem.201902837

(mu-22'-bipyrimidine)-diaqua-hexakis(111555-hexafluoroacetylacetonato)-di-terbiumSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 1859264: Experimental Crystal Structure Determination

2020

Related Article: Fernando Machado dos Santos, Meiry Edivirges Alvarenga, Ana Karoline Silva Mendanha Valdo, Renato Rabelo, Danielle Cangussu de Castro Gomes, Ângelo de Fátima, Thiago Vinicius Costa Lara, Cleiton Moreira da Silva, Thiago Teixeira Tasso, João Honorato Araujo Neto, Alzir Azevedo Batista, Alejandro Pedro Ayala, Javier Alcides Ellena, Vinicius Ferraz Guimarães, Cecília Maria Alves Oliveira, Lidya Cardozo da Silva, Boniek Gontijo Vaz, Felipe Terra Martins|2020|Chem.Commun.|56|15024|doi:10.1039/D0CC07043B

(mu-25262728-tetrakis((carboxymethyl)oxy)calix(4)arene)-(mu-25262728-tetrakis((carboxylatomethyl)oxy)calix(4)arene)-barium-di-sodium bis(mu-2526-bis((carboxymethyl)oxy)-2728-bis((carboxylatomethyl)oxy)calix(4)arene)-diaqua-(dimethyl sulfoxide)-barium-di-sodium dimethyl sulfoxide solvate hydrateSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 1567348: Experimental Crystal Structure Determination

2017

Related Article: Maria-Gabriela Alexandru, Diana Visinescu, Sergiu Shova, Francesc Lloret, and Miguel Julve|2017|Inorg.Chem.|56|12594|doi:10.1021/acs.inorgchem.7b02050

(mu-cyano)-diaqua-heptacyano-bis[2-(1H-imidazol-2-yl)pyridine]-(propan-2-ol)-dysprosium-tungsten dihydrateSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 1567349: Experimental Crystal Structure Determination

2017

Related Article: Maria-Gabriela Alexandru, Diana Visinescu, Sergiu Shova, Francesc Lloret, and Miguel Julve|2017|Inorg.Chem.|56|12594|doi:10.1021/acs.inorgchem.7b02050

(mu-cyano)-diaqua-heptacyano-bis[2-(1H-imidazol-2-yl)pyridine]-(propan-2-ol)-erbium-tungsten dihydrateSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 1049849: Experimental Crystal Structure Determination

2018

Related Article: Miguel Julve, Alain Gleizes, Lise Marie Chamoreau, Eliseo Ruiz, Michel Verdaguer|2018|Eur.J.Inorg.Chem.||509|doi:10.1002/ejic.201700935

(mu-ethanedioato)-diaqua-bis(22'-bipyridine)-bis(trifluoromethanesulfonato)-di-copper(ii)Space GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 247407: Experimental Crystal Structure Determination

2005

Related Article: J.Carranza, J.Sletten, C.Brennan, F.Lloret, J.Cano, M.Julve|2004|Dalton Trans.||3997|doi:10.1039/b412034p

(mu2-Croconato)-(mu2-2356-tetrakis(2-pyridyl)pyrazine)-bis(croconato)-triaqua-tri-copper(ii) heptahydrateSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 843328: Experimental Crystal Structure Determination

2011

Related Article: J.Vallejo, I.Castro, J.Ferrando-Soria, M.del P.Deniz-Hernandez, C.Ruiz-Perez, F.Lloret, M.Julve, R.Ruiz-Garcia, J.Cano|2011|Inorg.Chem.|50|2073|doi:10.1021/ic1025203

(mu~2~-Oxalato-OO':O''O''')-diaqua-(22'-bipyridine-NN')-(29-dimethyl-110-phenanthroline-NN')-(oxalato-OO')-chromium(iii)-cobalt(ii) (22'-bipyridine-NN')-bis(oxalato-OO')-chromium(iii) tetrahydrateSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 248619: Experimental Crystal Structure Determination

2005

Related Article: D.C.de C.Gomes, H.O.Stumpf, F.Lloret, M.Julve, V.Gonzalez, H.Adams, J.A.Thomas|2005|Inorg.Chim.Acta|358|1113|doi:10.1016/j.ica.2004.10.038

(mu~2~-Sulfato)-diaqua-bis(N-(2-pyrimidylcarbonyl)-2-pyrimidinecarboxamido)-di-copper(ii) monohydrateSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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Developing an indicator-modelling approach to forecast changes in nitrogen critical load exceedance across Europe arising from agricultural reform

2011

International audience; Atmospheric nitrogen (N) deposition above the critical load causes eutrophication with adverse impacts on biodiversity. Average Accumulated critical load Exceedance (AAE) is a measure of the amount of critical load exceedance and the area of habitat which is affected, and has been adopted in Europe as a pressure indicator for biodiversity. In Europe, AAE is calculated by the Coordination Centre for Effects (CCE) of the United Nations Economic Commission for Europe based on modelled nitrogen deposition and country-level reporting of critical load thresholds and ecosystem area. Due to differences in country-level reporting, AAE values for semi-natural habitats may show…

010504 meteorology & atmospheric sciencesBiodiversityGeneral Decision Sciences010501 environmental sciences01 natural sciencesAMMONIA EMISSIONEnvironmental protectionEcosystemEcology Evolution Behavior and Systematics0105 earth and related environmental sciences2. Zero hungerCritical loadNITROGEN DEPOSITIONEcologyEMISSION D'AMONIAQUEbusiness.industry15. Life on landDeposition (aerosol physics)Habitat13. Climate actionAgricultureEUTROPHICATIONSpatial ecologyEnvironmental scienceBIODIVERSITYCAP REFORM[SDE.BE]Environmental Sciences/Biodiversity and EcologyEutrophicationbusiness

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Aquatic and Semiaquatic Heteroptera (Nepomorpha) from the Strei River Basin

2018

Abstract During a field campaign in the Strei River basin in August 2014, seven suitable habitats for aquatic and semi-aquatic true bugs were identified from the confluence of the Strei River with the Bărbat River down to the confluence with the Mureș River. Forty-eight individuals belonging to 15 species and nine families of aquatic and semi-aquatic true bugs were sampled. We mention two species considered rare in Romanian fauna: Hebrus montanus and Microvelia pygmaea. The statistic-mathematical analysis showed the similarity of the true bugs’ communities from habitats with similar conditions, as well as the relation of each species with particular habitat conditions, emphasizing the fact …

0106 biological sciencesEcology (disciplines)Drainage basin010501 environmental sciences01 natural sciencesAquatic organismsAquatic planthabitatsmedicineNepomorpharomaniaQH540-549.50105 earth and related environmental sciencesgeography.geographical_feature_categorybiologysemiaquatic true bugsEcologyEcology010604 marine biology & hydrobiologyHeteropterabiology.organism_classificationGeographyHabitatmedicine.symptomVegetation (pathology)aquatic true bugsTransylvanian Review of Systematical and Ecological Research

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