Add to ORKGNanoclusters of rocksalt TiO, anatase TiO2, and rutile TiO2 were produced by cluster deposition and examined with transmission-electron microscopy, x-ray diffraction, and magnetization measurements. The clusters are all magnetic at room temperature, but the magnetization is structure-dependent. The hysteresis loops show coercivities that are of the order of 100 Oe and all films show a preferential in-plane magnetization direction. The size dependence of the magnetization was investigated for rutile clusters with average sizes from about 15 to 40 nm. The analysis of the measurements indicates that the magnetism is predominantly located near the surface of the clusters and characterized by a nominal value of 7.6 µB&#;nm2
In this work, we report the results of comprehensive experimental and theoretical study of magnetic ...
The report is devoted to an analysis of the structural and magnetic state of the nanocrystalline dil...
We report on structural, magnetic and electronic properties of Co-implanted TiO2(1 0 0) rutile singl...
Nanoclusters of rocksalt TiO, anatase TiO2, and rutile TiO2 were produced by cluster deposition and ...
We report the structural behavior of nanoscale Titanium Dioxide (TiO2) clusters as well as their mag...
Ti nanoparticles were produced using a cluster-deposition method. Ti:TiO core-shell structures were ...
We report on the observation of remarkable room-temperature ferromagnetism in nanocrystalline epitax...
The magnetic behavior of titanium dioxide nanobelts has been investigated with and without Codoping....
High magnetization materials are highly desirable for the development of advanced multifunctional ma...
A comprehensive magnetic characterization in a set of rutile and anatase thin films grown on differe...
[[abstract]]The local environment surrounding magnetic impurity atoms and the host crystal structure...
Nanoclusters display unusual properties due to the high surface-to-volume atom ratios. Our ability t...
High magnetizations are desirable for spintronic devices that operate by manipulating electronic sta...
The temperature and field dependence of the magnetization of epitaxial, undoped anatase TiO2 thin fi...
We report a detailed magnetic and structural analysis of highly reduced Co doped rutile TiO2-δ ...
In this work, we report the results of comprehensive experimental and theoretical study of magnetic ...
The report is devoted to an analysis of the structural and magnetic state of the nanocrystalline dil...
We report on structural, magnetic and electronic properties of Co-implanted TiO2(1 0 0) rutile singl...
Nanoclusters of rocksalt TiO, anatase TiO2, and rutile TiO2 were produced by cluster deposition and ...
We report the structural behavior of nanoscale Titanium Dioxide (TiO2) clusters as well as their mag...
Ti nanoparticles were produced using a cluster-deposition method. Ti:TiO core-shell structures were ...
We report on the observation of remarkable room-temperature ferromagnetism in nanocrystalline epitax...
The magnetic behavior of titanium dioxide nanobelts has been investigated with and without Codoping....
High magnetization materials are highly desirable for the development of advanced multifunctional ma...
A comprehensive magnetic characterization in a set of rutile and anatase thin films grown on differe...
[[abstract]]The local environment surrounding magnetic impurity atoms and the host crystal structure...
Nanoclusters display unusual properties due to the high surface-to-volume atom ratios. Our ability t...
High magnetizations are desirable for spintronic devices that operate by manipulating electronic sta...
The temperature and field dependence of the magnetization of epitaxial, undoped anatase TiO2 thin fi...
We report a detailed magnetic and structural analysis of highly reduced Co doped rutile TiO2-δ ...
In this work, we report the results of comprehensive experimental and theoretical study of magnetic ...
The report is devoted to an analysis of the structural and magnetic state of the nanocrystalline dil...
We report on structural, magnetic and electronic properties of Co-implanted TiO2(1 0 0) rutile singl...