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noparticles in various common handling operations with nanomaterials, as well as
nanosafety procedures. An European project of the EU FP7 (Nanovalid) is ongoing
in this field.
In addition to these five specific research topics, the group continues working on
the chemical synthesis of nanomaterials. The research combines the developments
that have led to the preparation of bimetallic nanoparticles by novel routes on a
wet basis, with new synthesis methods, including microreactors, laser pyrolysis and
electrospinning. Both laser pyrolysis and microreactors as belonging to the group
of enabling technologies, which allow new goals in reproducibility and scale-up pro-
duction of nanomaterials. As for the electrospinning, this is a new infrastructure
that allows the preparation of nanowires, formed by one or two polymers and na-
nofillers.
• C v, m-s F, G l, A m, s J, v n. Enhancing of plas- óí
Most relevant eBriánArtínAAvedrAómezrrueBoAntAmAríAilABoA
monic photothermal therapy through heat-inducible transgene activity.Nanomedicine.
scientific 2013 Jul;9(5):646-56.
articles
• r A, i s, K A, A m, s J. Preparation and characterization of
eGielrustAyziolrrueBoAntAmAríA
chitosan-silver nano composite films and their antibacterial activity against Staphylococ-
cus aureus NANOTECHNOLOGY. 2013;24(1):015101.
óó
• G v, i s, B F, s J. Intense generation of respirable metal nanoparti-
mezrustAAlAsAntAmAríA
cles from a low-power soldering unit JOURNAL OF HAZARDOUS MATERIALS. 2013;256- í
257:84-89.
ó
• m A, m G, m r, h Jl, B-m o, s J. Continuous
AlumBresArtnezAllAdAuesoomAtíiGuelAntAmAríA
production of iron-based nanocrystals by laser pyrolysis. Effect of operating variables on í
ó
size, composition and magnetic response.Nanotechnology. 2013 Aug 16;24(32):325603.
• s v, C mP, G GF, s J. Magnetically-driven selective synthesis of
eBAstiAnAlAtAyudoyAAntAmAríA
Au clusters on Fe3O4 nanoparticles.Chem Commun (Camb). 2013 Jan 25;49(7):716-8.
íó
Highlights
PATENTS:
• “Hidrogeles de fibrina con nanopartculas plasmónicas”, F. m. m s, n. vó
ArtínAAvedrAilABoA
í
dAz, v. CeBriAn hernAndo, m. ArrueBo Gordo, J. sAntAmAríA rAmiro, l. Gómez nAvAsCues, Entida-
des titulares: Fundacin para la Investigacin Biomedica del Hospital La Paz, CIBER-BBN,
Universidad de Zaragoza. Solicitud de Patente española número P201330894, (2013).
PROJECTS: í
ó
• Synthesis and caracterization of nasotructured materials with luminiscent properties for
diagnostic and therapeutic applications” (NANOLIGHT). Financiado por: UE (2011-2014)
• “Development of reference methods for hazard identification, risk assessment and LCA
of engineered nanomaterials” (NANOVALID). Financiado por: el programa NMP del VII
Programa Macro (2011-2015)
• “Microwave-assisted microreactors: development of a highly efficient gas phase contactor
13
with direct catalyst heating (HECTOR)”. Financiado por: UE (2011-2016) 20
T
• “Farolas Inteligentes con Nanosensores para Control de la Calidad del Aire”. Financiado
OR
por: MINECO, proyecto INNpacto, IPT-2012-0749-310000, 2013-2015. P
RE
• “Investigacin y desarrollo de un proceso de impresin basados en tintas constituídas L
por nanoparticulas para la securizacin de productos”. Financiado por: MINECO, proyecto
A
NU
INNpacto, IPT-2012-0764-420000, 2013- 2014. N
• “Development of a microfluidic platform to produce nanomaterials and assessment on
A
óN /
new nanotechnology applications” (PLATFORM2NANO). Financiado por: UE, Marie Curie
B
Action dentro del programa IDEAS del VII Programa Marco, 2012-2014. -B
R
• “Marcadores anti-falsificacin basados en nanopartculas. DEsarrollo e identificacin de
BE
CI
tintas personalizadas”. Financiado por: Tipolnea SAU, 2012-2014.
• “Desarrollo de suelas ignfugas libres de compuestos halogenados”. Financiado por: el 131
Centro Tecnolgico del Calzado de La Rioja, 2012-13.
