Defect engineering of ZnO: Review on oxygen and zinc vacancies
V Gurylev, TP Perng - Journal of the European Ceramic Society, 2021 - Elsevier
ZnO is an important material which has been widely applied in photodetector, catalyst, gas
sensor, field emitter, etc. Yet, its inability to absorb visible light, poor charge transport, and …
sensor, field emitter, etc. Yet, its inability to absorb visible light, poor charge transport, and …
2D zinc oxide–synthesis, methodologies, reaction mechanism, and applications
Zinc oxide (ZnO) is a thermally stable n‐type semiconducting material. ZnO 2D nanosheets
have mainly gained substantial attention due to their unique properties, such as direct …
have mainly gained substantial attention due to their unique properties, such as direct …
Two-dimensional nonlayered materials for electrocatalysis
Creating two-dimensional (2D) geometry from nonlayered catalytic materials may
significantly advance electrocatalyst design. The 2D morphology of three-dimensional …
significantly advance electrocatalyst design. The 2D morphology of three-dimensional …
Growth of 2D Cr2O3–CrN Mosaic Heterostructures with Tunable Room‐Temperature Ferromagnetism
Abstract 2D magnets have generated much attention due to their potential for spintronic
devices. Heterostructures of 2D magnets are interesting platforms for exploring physical …
devices. Heterostructures of 2D magnets are interesting platforms for exploring physical …
Harmonizing the electronic structures on BiOI with active oxygen vacancies toward facet‐dependent antibacterial photodynamic therapy
J Sun, J Wen, G Wu, Z Zhang, X Chen… - Advanced Functional …, 2020 - Wiley Online Library
Due to the unique surface atomic arrangement, exposed facets and defects of nanomaterials
play critical roles in their physicochemical properties. Herein, BiOI nanosheets with the same …
play critical roles in their physicochemical properties. Herein, BiOI nanosheets with the same …
Quasi-two-dimensional earth-abundant bimetallic electrocatalysts for oxygen evolution reactions
The extremely large surface area offered by quasi-two-dimensional (2D) nanostructures is a
great advantage for catalytic applications. While bimetallic materials have been discovered …
great advantage for catalytic applications. While bimetallic materials have been discovered …
Magnetic, superelastic and superhydrophobic porous thermoplastic polyurethane monolith with nano-Fe3O4 coating for highly selective and easy-recycling oil/water …
Y Shi, B Wang, S Ye, Y Zhang, B Wang, Y Feng… - Applied Surface …, 2021 - Elsevier
Magnetic, superelastic and superhydrophobic porous thermoplastic polyurethane (TPU)-
based monolith was fabricated by immobilizing Fe 3 O 4 nanoparticles (NPs) onto its …
based monolith was fabricated by immobilizing Fe 3 O 4 nanoparticles (NPs) onto its …
Two-dimensional magneto-photoconductivity in non-van der Waals manganese selenide
Deficient intrinsic species and suppressed Curie temperatures (Tc) in two-dimensional (2D)
magnets are major barriers for future spintronic applications. As an alternative, delaminating …
magnets are major barriers for future spintronic applications. As an alternative, delaminating …
Room temperature ferromagnetism in metal oxides for spintronics: A comprehensive review
This review presents a comprehensive account of the research scenario in the ferromagnetic
(FM) behavior displayed at room temperatures (RT) in the metal oxides (MOx) for spintronics …
(FM) behavior displayed at room temperatures (RT) in the metal oxides (MOx) for spintronics …
Point and complex defects in monolayer : Evolution of electronic structure and emergence of magnetism
Layered transition-metal dichalcogenides (TMDs) constitute an emerging class of materials
that provide researchers a platform to realize fundamental studies and to design promising …
that provide researchers a platform to realize fundamental studies and to design promising …