Correction: Multifunctional mixed valence N-doped CNT@MFe2O4 hybrid nanomaterials: from engineered one-pot coprecipitation to application in energy storage paper supercapacitors (vol 10, pg 12820, 2018)

Authors: Pereira, C; Costa, RS; Lopes, L; Bachiller-Baeza, B; Rodriguez-Ramos, I; Guerrero-Ruiz, A; Tavares, PB; Freire, C; Pereira, AM

Correction.
Nanoscale. vol: 11. page: 2040-3364.
Date: feb-21. 2019.
Doi: 10.1039/c9nr90031d.

Abstract:
.

Multifunctional mixed valence N-doped CNT@MFe2O4 hybrid nanomaterials: from engineered one-pot coprecipitation to application in energy storage paper supercapacitors

Authors: Pereira, C; Costa, RS; Lopes, L; Bachiller-Baeza, B; Rodriguez-Ramos, I; Guerrero-Ruiz, A; Tavares, PB; Freire, C; Pereira, AM

Article.
Nanoscale. vol: 10. page: 2040-3364.
Date: jul-14. 2018.
Doi: 10.1039/c8nr03533d.

Abstract:
This work reports on the design of novel mixed valence hybrid N-doped carbon nanotubes/metal ferrite nanomaterials (MFe2O4, M(ii) = Mn, Fe, Co) with tailored composition, and magnetic and electrical properties through [read more]

Clay-Nanoarchitectures as Photocatalysts by In Situ Assembly of ZnO Nanoparticles and Clay Minerals

Authors: Akkari, M; Aranda, P; Amara, AB; Ruiz-Hitzky, E

Article.
J. Nanosci. Nanotechnol.. vol: 18. page: 1533-4880.
Date: JAN. 2018.
Doi: 10.1166/jnn.2018.14613.

Abstract:
ZnO-clay nanoarchitectures have been prepared by in situ generation of ZnO nanoparticles from zinc acetylacetonate in isopropanol under reflux in the presence of organoclays. Two layered clays, a commercialWyoming montmorillonite and a smectite from Gafsa (Tunisia), and a fibrous [read more]

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