Add to ORKGThe energetic ionic liquids formed by the 1,2,4-triazolium cation family and dinitramide anion are investigated by ab initio quantum chemistry calculations, to address the following questions: How does substitution at the triazolium ring’s nitrogen atoms affect its heat of formation, and its charge delocalization? What kind of ion dimer structures might exist? And, do deprotonation reactions occur, as a possible first step in the decomposition of these materials
An investigation of the structure and dynamics of the high-energy ionic liquid, 1-hydroxyethyl-4-ami...
In this work we report molecular mechanics and ab intio calculations on the geminal di-imidazolium b...
Ionic liquids (ILs) have been utilized in a multitude of areas breaking past the traditional thought...
The energetic ionic liquids formed by the 1,2,4-triazolium cation family and dinitramide anion are i...
The structures of protonated pentazole cations (RN5H+), oxygen-containing anions such as N(NO2)2-, N...
New energetic ionic liquids are investigated as potential high energy density materials. Ionic liqui...
The aim of the thesis was to find out a correlation between the structural properties of ionic liqui...
We present a computational analysis of the short-range structure of three protic ionic liquids based...
We present studies of molecular dynamics and interactions in azolium azolate energetic ionic liquids...
Thirty energetic salts formed by substituted 3,3′-amino-<i>N</i>,<i>N</i>′-azo-1,2,4-triazoles (<b>A...
Structural features and interionic interactions play a crucial role in determining the overall stabi...
International audienceA total of 38 ionic liquids (19 of which are new) comprised of 13 cations, 1-p...
The Materials Genome Approach (MGA) aims to accelerate development of new materials by incorporating...
International audienceIonic liquids—which are special solvents composed entirely of ions—are difficu...
Transition metal-containing ionic liquids (TM-ILs) have attracted a great deal of attention in recen...
An investigation of the structure and dynamics of the high-energy ionic liquid, 1-hydroxyethyl-4-ami...
In this work we report molecular mechanics and ab intio calculations on the geminal di-imidazolium b...
Ionic liquids (ILs) have been utilized in a multitude of areas breaking past the traditional thought...
The energetic ionic liquids formed by the 1,2,4-triazolium cation family and dinitramide anion are i...
The structures of protonated pentazole cations (RN5H+), oxygen-containing anions such as N(NO2)2-, N...
New energetic ionic liquids are investigated as potential high energy density materials. Ionic liqui...
The aim of the thesis was to find out a correlation between the structural properties of ionic liqui...
We present a computational analysis of the short-range structure of three protic ionic liquids based...
We present studies of molecular dynamics and interactions in azolium azolate energetic ionic liquids...
Thirty energetic salts formed by substituted 3,3′-amino-<i>N</i>,<i>N</i>′-azo-1,2,4-triazoles (<b>A...
Structural features and interionic interactions play a crucial role in determining the overall stabi...
International audienceA total of 38 ionic liquids (19 of which are new) comprised of 13 cations, 1-p...
The Materials Genome Approach (MGA) aims to accelerate development of new materials by incorporating...
International audienceIonic liquids—which are special solvents composed entirely of ions—are difficu...
Transition metal-containing ionic liquids (TM-ILs) have attracted a great deal of attention in recen...
An investigation of the structure and dynamics of the high-energy ionic liquid, 1-hydroxyethyl-4-ami...
In this work we report molecular mechanics and ab intio calculations on the geminal di-imidazolium b...
Ionic liquids (ILs) have been utilized in a multitude of areas breaking past the traditional thought...