Nouveaux matériaux photoluminescents activés au cuivre monovalent

Jacob, Alain

22 December 1997

Les propriétés spectroscopiques du cuivre monovalent ont été étudiées dans deux familles de matériaux oxygénés.<br />Deux types de verres borate et phosphate, de composition nominales LaMgB5O10:Cu+ et LiLaP4O12:Cu+ ont été caractérisés, essentiellement par spectroscopie UV-visible et par EXAFS. Des tests d'émission laser ont été effectués sur un échantillon de verre borate.<br />Trois matériaux-modèle fortement concentrés en cuivre, dans lesquels cet élément adopte une coordinence linéaire par rapport à l'oxygène, ont fait l'objet de tentatives de modélisation visant à corréler structure et propriétés de spectroscopie optique. Il s'agit des delafossites CuLaO2 et CuYO2 ainsi que du phosphate CuTh2(PO4)3. Des calculs de structures de bandes ont été effectués pour les composés CuLaO2 et CuYO2 par les méthodes ASW et HÜCKEL ETENDUE. L'étude spectroscopique de CuTh2(PO4)3 a été étendue à la solution solide Na1-xCuxTh2(PO4)3 (0 < x < 0,25).

Photoluminescence

Absorption X

Cuivre monovalent

Verres d'oxydes

Borate

Phosphate

Delafossite

CuTh2(PO4)3

Calculs de structures de bandes

ASW

HÜCKEL Etendues

Understanding the Role of Lattice Defects and Metal Composition Ratio on the Photochemistry of CuFeO₂ toward Solar Energy Conversion

Fugate, Elizabeth Anne

11 September 2020

No description available.

Chemistry

Delafossite CuFeO2

charge-carrier dynamics

transient absorption spectroscopy

Cu vacancy

O interstitial

acetate

CO2 reduction

formate

product selectivity

metal composition ratio

photo-physics

annealing conditions

heterojunction structure

Can Hydrodynamic Electrons Exist in a Metal? A Case Study of the Delafossite Metals PdCoO2 and PtCoO2

Nandi, Nabhanila

09 August 2019

In an electron fluid, both resistive and viscous mechanisms can be present. In systems with perfect translational invariance momentum is a conserved quantity, and as the electrons carry both charge and momentum, the current cannot decay. Predictions from theories at the particle physics-condensed matter physics interface using the `AdS/CFT' correspondence suggest that hydrodynamic charge flow might exist in some exotic metallic states. In the high-Tc cuprates the T-linear resistivity in the strange metal regime is conjectured to be due to hydrodynamic effects. In this dissertation, I start out drawing a theoretical outline of the hydrodynamic theory of electron transport in solids. In the search for a high purity metal that can host such a hydrodynamic electron transport, we looked at the non-magnetic delafossite oxides PdCoO2 and PtCoO2, which have the highest conductivities of any known oxides, and whose key properties I will review. As the signatures of viscosity can only be realised in transport through boundary scattering, the samples had to be taken down to the mesoscopic limit, where the momentum conserving and relaxing scattering mean free paths of the material are comparable to the channel width. I will discuss the focussed ion beam (FIB) micro-structuring technique that I have implemented to fabricate the mesoscopic devices. To interpret the transport in the mesoscopic regime, a comprehensive understanding of the bulk transport is first necessary and I will present my measurements of the magnetoresistance and Hall effect in both materials, which show deviations from the predictions of standard models highlighting some intriguing physics even in the bulk limit. Finally, I will present the data from magnetotransport measurements at the mesoscopic limit. Magnetic field introduces a variable length scale, the cyclotron radius, in the system which can be used to tune through different transport regimes. I will discuss the ballistic and hydrodynamic signatures in the transport that becomes accessible through magnetic field tuning in the mesoscopic samples of the delafossites PdCoO2 and PdCoO2.

info:eu-repo/classification/ddc/530

ddc:530