0000000001307339
AUTHOR
J.m. Moreno
Aerosol Lidar Intercomparison in the Framework of SPALINET—The Spanish Lidar Network: Methodology and Results
Abstract—A group of eight Spanish lidars was formed in order to extend the European Aerosol Research Lidar Network–Advanced Sustainable Observation System (EARLINET-ASOS)project. This study presents intercomparisons at the hardware and software levels. Results of the system intercomparisons are based on range-square-corrected signals in cases where the lidars viewed the same atmospheres. Comparisons were also made for aeros backscatter coefficients at 1064 nm (2 systems) and 532 nm (all systems), and for extinction coefficients at 532 nm (2 systems). In total, three field campaigns were carried out between 2006 and 2007. Comparisons were limited to the highest layer found before the free tr…
One-dimensional iron(III) and two-dimensional iron(III)nickel(II) cyanide-bridged ferromagnetic arrays from hexacyanoferrate(III) and [Ni(cyclam)]2+ building blocks: Synthesis, crystal structure and magnetic properties
Abstract The X-ray structures and magnetic properties of a iron(III) linear chain and a honeycomb-like layered iron(III)-nickel(II) cyanide-bridged compound are reported. The former contains alternating iron sites and unexpected ferromagnetic behaviour, justified on the basis of the axial distortion from regular octahedral geometry of one of the iron ions. The latter is metamagnetic with ferromagnetic intralayers and antiferromagnetic interlayers interactions with a Neel temperature, TN= 7.7 K. The field-induced transition from an antiferro- to a ferromagnetic state takes place at Hc= 5000 G. The antiferromagnetic ordered phase exhibits spin-canting and long range ferromagnetic ordering at …
CCDC 694344: Experimental Crystal Structure Determination
Related Article: J.Suarez-Varela, J.M.Moreno, I.B.Maimoun, F.Lloret, J.Mrozinski, R.Kivekas, E.Colacio|2009|Cryst.Growth Des.|9|4102|doi:10.1021/cg9003438
CCDC 694345: Experimental Crystal Structure Determination
Related Article: J.Suarez-Varela, J.M.Moreno, I.B.Maimoun, F.Lloret, J.Mrozinski, R.Kivekas, E.Colacio|2009|Cryst.Growth Des.|9|4102|doi:10.1021/cg9003438
CCDC 119191: Experimental Crystal Structure Determination
Related Article: E.Colacio, J.M.Dominguez-Vera, M.Ghazi, R.Kivekas, F.Lloret, J.M.Moreno, H.Stoeckli-Evans|1999|Chem.Commun.||987|doi:10.1039/a902041a
CCDC 119192: Experimental Crystal Structure Determination
Related Article: E.Colacio, J.M.Dominguez-Vera, M.Ghazi, R.Kivekas, F.Lloret, J.M.Moreno, H.Stoeckli-Evans|1999|Chem.Commun.||987|doi:10.1039/a902041a
CCDC 172232: Experimental Crystal Structure Determination
Related Article: E.Colacio, M.Ghazi, H.Stoeckli-Evans, F.Lloret, J.M.Moreno, C.Perez|2001|Inorg.Chem.|40|4876|doi:10.1021/ic0103446
CCDC 172231: Experimental Crystal Structure Determination
Related Article: E.Colacio, M.Ghazi, H.Stoeckli-Evans, F.Lloret, J.M.Moreno, C.Perez|2001|Inorg.Chem.|40|4876|doi:10.1021/ic0103446
CCDC 694346: Experimental Crystal Structure Determination
Related Article: J.Suarez-Varela, J.M.Moreno, I.B.Maimoun, F.Lloret, J.Mrozinski, R.Kivekas, E.Colacio|2009|Cryst.Growth Des.|9|4102|doi:10.1021/cg9003438