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A copy of any of the articles
displayed below can be obtained directly from the
JOURNAL LINK or by sending a message to: ptartaj@icmm.csic.es
Multifunctional
Response of Anatase Nanostructures based
on 25 nm Mesocrystal-like Porous
Assemblies (Anodes for batteries,
photocatalysis and enzyme immobilization).
P. Tartaj, J. M. Amarilla
Advanced
Materials, 23, 4904-4907 (2011).
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Iron
Oxide
Porous
Nanorods
with Different Textural Properties and
Surface Composition: Preparation,
Characterization and Electrochemical
Lithium Storage Capabilities (Anodes for
Lithium Ion Batteries).
P. Tartaj, J. M. Amarilla
J. Power
Sources, 196, 2164-2170 (2011).
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Sub-100
nm TiO2 Mesocrystalline
Assemblies with Mesopores: Preparation,
Characterization, Enzyme Immobilization
and Photocatalytic Properties.
P. Tartaj
Chemical
Communications, 47, 256-258 (2011).
Invitation
from
the Editorial Board of Chemical
Communications. The paper is part of a
Chemical Communications Issue highlighting
the work of Emerging Investigators from
across the chemical sciences.
Highlighted in the American Institute of
Physics Virtual Journal of Nanoscale
Science & Technology
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Iron
Oxide
Nanosized
Clusters Embedded in Porous Nanorods: A
New Colloidal Design to Enhance
Capabilities of MRI Contrast Agents.
A. F. Rebolledo, S. Laurent, M. Calero, A.
Villanueva, M. Knobel, J. F. Marco and P.
Tartaj
ACS Nano, 4,
2095-2103 (2010).
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PDF / PDF
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Thermally-Driven
Self-Assembly
of
Nanomicelles: A Facile Route to Functional
Monodisperse Mesoporous Colloidal
Nanocomposites of Inorganic Nature and
Mesoscale Size.
P. Tartaj
Small, 6, 880-886 (2010).
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Magnetically
Separable
Bimodal Mesoporous Carbons with a Large
Capacity for the Immobilization of
Biomolecules.
M. Sevilla, P. Valle-Vigon, P. Tartaj and A.
B. Fuertes
Carbon, 47,
2519-2527
(2009).
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Facile and Predictable Synthesis of
Dual Mesoporous-Mesosize Nanostructures
through Thermally-Driven Self-Assembly of
Nanodroplets.
P. Tartaj
Chemical
Communications, 2009, 3228-3230.
RSC Prospect
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Full: ABSTRACT / Enhanced HTML / HTML /PDF
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Preparation,
characterization
and enzyme immobilization capacities of
superparamagnetic silica/iron oxide
nanocomposites with mesostructured
porosity.
T. Valdes-Solis, A. F. Rebolledo, M.
Sevilla, P. Valle-Vigon, O. Bomati-Miguel,
A. B. Fuertes and P. Tartaj
Chem.
Mater., 21, 1806-1814 (2009).
Highly Downloaded Article
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Surface
Enthalpy, Enthalpy of Water Adsorption and
Phase Stability in Nanocystalline
Monoclinic Zirconia
A. V. Radha, O. Bomati-Miguel, S. V.
Ushakov, A. Navrotsky and P. Tartaj
J. Am.
Ceram. Soc., 92, 133-140 (2009).
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Surface
Enthalpies
(J/m2)
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Tetragonal-Monoclinic
Cross
Over
(Estimated from Free Energy
Values)
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Tetragonal
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Monoclinic
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Surface
Area (m2/g) |
Crystal
Size (nm) |
Hydrous
Zirconia
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1.02
(0.05)
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2.86
(0.31)
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37.2
(6.5)
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28
(6)
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Anhydrous
Zirconia
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1.23
(0.04)
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3.45
(0.28)
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30.8
(4.0)
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34
(5) |
Extra digit is
retained to prevent round-off error
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Two-Stage
Sintering
of Nanosize Zirconia
J. Tartaj and
P. Tartaj
J. Am.
Ceram. Soc., 92 [S1], S103-S106
(2009).
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Controlled Formation of
Porous Magnetic Nanorods via a
Liquid/Liquid Solvothermal Method
O. Bomati-Miguel, A.
F. Rebolledo and P. Tartaj
Chemical
Communications, 2008, 4168-4170.
Highlighted in
Crystal Engineering Community
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A Facile Synthetic Route
for the Preparation of Superparamagnetic
Iron Oxide Nanorods and Nanorices with
Tunable Surface Functionality
A. F. Rebolledo, O.
Bomati-Miguel, Jose F. Marco and P. Tartaj
Advanced
Materials, 20, 1760-1765 (2008).
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Fabrication of
Monodisperse Mesoporous Carbon Capsules
Decorated with Ferrite Nanoparticles
A. B. Fuertes, T.
Valdes-Solis, M. Sevilla and P. Tartaj
J. Phys.
Chem. C, 112, 3648-3654
(2008).
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Signatures of Clustering
in Superparamagnetic Colloidal
Nanocomposites of Inorganic and Hybrid
Nature
A. F. Rebolledo,
A.B. Fuertes, T. Gonzalez-Carreno, M.
Sevilla, T. Valdes-Solis and P. Tartaj
Small, 4,
254-261 (2008).
Highlighted in
Materials View
Highlighted in
Preview:Small
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Synthetic Route to
Nanocomposites Made Up of Inorganic
Nanoparticles Confined within a Hollow
Mesoporous Carbon Shell
A.B. Fuertes, M.
Sevilla, T. Valdes-Solis and P. Tartaj
Chemistry of
Materials, 19, 5418-5423 (2007).
Highly Downloaded
Article
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Templated Synthesis of
Mesoporous Superparamagnetic Polymers
A.B. Fuertes, M.
Sevilla, S. Alvarez, T. Valdes-Solis and
P. Tartaj
Advanced
Functional
Materials, 17, 2321-2327 (2007).
Highly Downloaded
Article
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Controlled Release of
Precipitating Agents through Solvothermal
Destabilization of Microemulsions: One-pot
Synthesis of Monoclinic Zirconia
Nanostructures
P. Tartaj, O.
Bomati-Miguel, A.F. Rebolledo, T.
Valdes-Solis
Journal of
Materials Chemistry, 17, 1958-1963
(2007).
Personal invitation from the Editorial
Board of The Journal of Materials
Chemistry. The paper is part of a Journal
of Materials Chemistry issue highlighting
the work of emerging investigators in
materials chemistry.
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Monodisperse
carbon-polymer mesoporous spheres with
magnetic functionality and adjustable
pore size distribution
A.B.
Fuertes,
P. Tartaj
Small,
3, 275-279 (2007)
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Core/Shell Iron-Iron
Oxide Nanoparticles Synthesized by
Laser-Induced Pyrolysis
O.
Bomati-Miguel, P. Tartaj, MP Morales, P.
Bonville, U. Golla-Schindler, X. Zhao and
S. Veintemillas-Verdaguer,
Small, 2, 1476-1483 (2006)
Highly Downloaded
Article
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A Facile Route for the
Preparation of Superparamagnetic Porous
Carbons
A. B. Fuertes, P.
Tartaj
Chem. Mater., 18, 1675-1679 (2006)
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Microstructural Bases for the
Superior Densification of Gels doped with
Alumina Nanoseeds
J. Tartaj and P. Tartaj
Adv. Eng. Mater., 8, 93-97 (2006)
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Correlation Between Microstuctural
Features and the Magnetic Behavior of
Fe-Based Metallic Nanoneedles
N. O. Nunez, P. Tartaj, M. P. Morales,
T. Gonzalez-Carreno and C. J. Serna
Acta Materialia, 54, 219-224 (2006)
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Fe-based Nanoparticulate Metallic
Alloys as Contrast Agents for Magnetic
Resonance Imaging
O. Bomati-Miguel, M. P. Morales, P.
Tartaj, J. Ruiz-Cabello, P. Bonville, M.
Santos, X. Zhao and S.
Veintemillas-Verdaguer
Biomaterials, 26, 5695-5703 (2005)
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Zircon Formation from Nanosized
Powders Obtained by a Reverse Micelle
Process
P. Tartaj
J. Am. Ceram. Soc., 88, 222-224
(2005)
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HTML / PDF |
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Metallic Nanomagnets Randomly
Dispersed in Spherical Colloids: Toward a
Universal Route for the Preparation of
Colloidal Composites Containing
Nanoparticles
P. Tartaj, T. Gonzalez-Carreno, M. L. Ferrer
and C. J. Serna
Angewandte Chemie Int. Ed., 43, 6304-6307
(2004)
Highlighted in Chemistry
& Industry
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From Hollow to Dense Spheres: Control
of Dipolar Interactions by Tailoring the
Architecture in Colloidal Aggregates of
Superparamagnetic Iron Oxide Nanocrystals
P. Tartaj, T. Gonzalez-Carreno and C. J.
Serna
Advanced Materials, 16, 529-533 (2004)
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Magnetic Behavior of
Superparamagnetic Fe Nanocrystals Confined
Inside Submicron-Sized Spherical Silica
Particles
P. Tartaj, T. Gonzalez-Carreno, O.
Bomati-Miguel, P. Bonville and C. J. Serna
Phys. Rev. B, 69, 094401 (2004)
Highlighted in
Virtual Journal of Nanoscale
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Synthesis of Monodisperse
Superparamagnetic Fe/Silica Nanospherical
Composites
P. Tartaj and C. J. Serna
J. Am. Chem. Soc., 125, 15754-15755 (2003)
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Probing Nanomagnets' Interactions
Inside Colloidal Superparamagnetic
Composites: Aerosol versus Surface
Template Methods
P. Tartaj
ChemPhysChem, 4, 1371-1375 (2003)
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Magnetic Behavior of gamma-Fe2O3
Nanocrystals Dispersed in Colloidal Silica
Particles
P. Tartaj, T. Gonzalez-Carreno and C. J.
Serna
J. Phys. Chem. B, 107, 20-24 (2003)
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Synthesis of Nanomagnets Dispersed in
Colloidal Silica Cages with Applications
in Chemical Separation
P. Tartaj, T. Gonzalez-Carreno and C. J.
Serna
Langmuir, 18, 4556-4558 (2002)
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Preparation, Characterization and
Sintering Behavior of Spherical Iron Oxide
Doped Alumina Particles
P. Tartaj and J. Tartaj
Acta Materialia, 50, 5-12 (2002)
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Single-Step Nanoengineering of Silica
Coated Maghemite Hollow Spheres with
Tunable Magnetic Properties
P. Tartaj, T. Gonzalez-Carreno and C. J.
Serna
Advanced Materials, 13, 1620-1624 (2001)
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