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ULTIMATE-I

Ultra Thin Magneto Thermal Sensoring supported by European Union, Grant agreement ID: 101007825

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    • Universidad de Zaragoza
    • Institut Catala de Nanociencia i Nanotecnologia (ICN2)
    • Université de Lorraine – Institut Jean Lamour (IJL)
    • Centre National de la Recherche Scientifique (CNRS)
    • Asociacion Centro de Investigacion Cooperativa en Nanociencias (CIC nanoGUNE)
    • Senzor INFIZ
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    • Universidade Federal De Pernambuco, Brazil
    • Consejo Nacional de Investigaciones Cientificas y Tecnicas (CONICET), Argentina
    • Comision Nacional de Energia Atomica (CNEA), Argentina
    • Universidad Tecnica Federico Santa Maria, Chile
    • New York University, USA
    • Universidad Nacional Mayor De San Marcos, Peru
    • University of La Plata (FI-UNLP), Argentine
    • Universidad San Francisco de Quito (USFQ), Ecuador
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Posted on 24 January 202524 January 2025 by admin2169

Scientific publication: “Tailoring magnetic properties of CoFeB films via tungsten buffer and capping layers”

DOI: 10.1016/j.jmmm.2024.172701

Journal of Magnetism and Magnetic Materials, Volume 614, 15 February 2025, 172701, 15th Feb. 2025

L. Saravanan, Nanhe Kumar Gupta, Carlos García, Sujeet Chaudhary

Tagscapping layers, magnetic properties, tungster buffer

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Previous PostPrevious Participation in the “En las Fronteras de la Materia Condensada VII” (FCM2024)
Next PostNext Scientific publication: “Giant and anisotropic enhancement of spin‐charge conversion in graphene‐based quantum system”

Project news

  • Scientific publication: “Ferroelectricity in graphene nanoribbon devices enabled by collective water moleculedynamics”
  • Scientific publication: “Imaging junctions in two-dimensional semiconductor nanosheet networks”
  • Scientific publication: “Graphene quantum dots drive spontaneous metal reduction to form stable and electroactive core-shell nanocolloids”
  • Scientific publication: “Vanadium incorporation in ferrite nanoparticles serves as an electron buffer and anisotropy tune in catalytic and hyperthermia applications”
  • Extreme microscopy: LMA research featured in the SPECS blog

Ultra Thin Magneto Thermal Sensoring: ULTIMATE-I Follow

ULTIMATE-I involves partners with a strong background in spintronics, magnetic, and multiferroic materials from the EU and Third Countries. @REA_research

ULTIMATE_I_MSCA
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fortissimotcom Mariannick Stankovic @fortissimotcom ·
16 Dec

Here is the word for December 16th.
You can find the full Advent calendar on my blog.
https://fortissimot.com/index.php/blog/

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nanobayer Bernhard C. Bayer @nanobayer ·
12 Dec

Great to host Prof. Alexandar Matkovic @2D_Mat_Lab from @unileoben for an invited seminar on "Junctions and Contacts in 2D Semiconductor Devices". Many thanks for great talk and visit! 👍

#2Dmaterials #nanoelectronics

@chemistry_tuw

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autnemo Igor Stankovic @autnemo ·
9 Dec

Almost three years to publish and four for research...

https://rdcu.be/eTRkM

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ultimate_i_msca Ultra Thin Magneto Thermal Sensoring: ULTIMATE-I @ultimate_i_msca ·
10 Dec

ULTIMATE-I project result with @2D_Mat_Lab
thanks to support of
@HorizonEU
@REA_research
@EU_Commission

https://ultimate-i.eu/index.php/2025/12/10/scientific-publication-ferroelectricity-in-graphene-nanoribbondevices-enabled-by-collective-water-moleculedynamics/

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hip2dqm Hip2DQM @hip2dqm ·
19 Nov

IPB-led study in npj 2D Materials & Applications uses in-operando KPFM to map charge flow in MoS₂ nanosheet networks, showing junctions dominate resistance. Collab: Montanuniversität Leoben, Trinity College Dublin, Universidade NOVA de Lisboa.
#2Dmaterials #MoS2 #HorizonEurope

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