Molecular nonlinear optical (NLO) materials are of great current interest for potential applications in emerging optoelectronic/ photonic technologies.1 Organotransition metal complexes offer many exciting possibilities for combining NLO effects with other molecular electronic properties (e.g., redox or magnetic behavior) to afford novel multifunctional materials.2 Regarding quadratic (second-order) NLO effects, which are governed at the molecular level by first hyperpolarizabilities â, molecular engineering guide-lines for purely organic chromophores are now well established.1 However, comparable knowledge and understanding relating to metal complexes is currently somewhat less substantial.2 Most molecules with large â values comprise conj...
International audienceCoordination complexes have been attracting considerable interest due to their...
We describe a series of nine new complex salts in which electron-rich Ru-II or Fe-II centers are con...
The complexes trans-[Ru(CC-4-C6H4F)X(dppe) 2] [X = Cl (1), CCPh (2), CC-4-C6H4NO 2 (3)], trans-[Ru{C...
International audienceThe non-linear optical properties of π-conjugated of organometallic complexes ...
Non-linear optical (NLO) materials are able to modify the propagation characteristics of light. Such...
In this paper, we describe the extremely unusual optical properties of RuII-based electron donor−acc...
In this paper, we describe the extremely unusual optical properties of RuII-based electron donor−acc...
In this paper, we describe the extremely unusual optical properties of RuII-based electron donor−acc...
In this article, we contrast the optical properties of dipolar chromophores having 4-(dimethylamino)...
Optics, the science of the interaction of light with matter, has become ubiquitous in our society. L...
A series of complex salts in which trans-bis[1,2-phenylenebis(dimethylarsine)]chlororuthenium(II) el...
A series of complex salts in which trans-bis[1,2-phenylenebis(dimethylarsine)]chlororuthenium(II) el...
Organic nonlinear optical materials are widely investigated materials for fabricating optoelectronic...
A range of dipolar and quadrupolar gold and ruthenium acetylides have been prepared and their electr...
The non-linear optical properties of π-conjugated of organometallic complexes and their derivatives ...
International audienceCoordination complexes have been attracting considerable interest due to their...
We describe a series of nine new complex salts in which electron-rich Ru-II or Fe-II centers are con...
The complexes trans-[Ru(CC-4-C6H4F)X(dppe) 2] [X = Cl (1), CCPh (2), CC-4-C6H4NO 2 (3)], trans-[Ru{C...
International audienceThe non-linear optical properties of π-conjugated of organometallic complexes ...
Non-linear optical (NLO) materials are able to modify the propagation characteristics of light. Such...
In this paper, we describe the extremely unusual optical properties of RuII-based electron donor−acc...
In this paper, we describe the extremely unusual optical properties of RuII-based electron donor−acc...
In this paper, we describe the extremely unusual optical properties of RuII-based electron donor−acc...
In this article, we contrast the optical properties of dipolar chromophores having 4-(dimethylamino)...
Optics, the science of the interaction of light with matter, has become ubiquitous in our society. L...
A series of complex salts in which trans-bis[1,2-phenylenebis(dimethylarsine)]chlororuthenium(II) el...
A series of complex salts in which trans-bis[1,2-phenylenebis(dimethylarsine)]chlororuthenium(II) el...
Organic nonlinear optical materials are widely investigated materials for fabricating optoelectronic...
A range of dipolar and quadrupolar gold and ruthenium acetylides have been prepared and their electr...
The non-linear optical properties of π-conjugated of organometallic complexes and their derivatives ...
International audienceCoordination complexes have been attracting considerable interest due to their...
We describe a series of nine new complex salts in which electron-rich Ru-II or Fe-II centers are con...
The complexes trans-[Ru(CC-4-C6H4F)X(dppe) 2] [X = Cl (1), CCPh (2), CC-4-C6H4NO 2 (3)], trans-[Ru{C...