Add to ORKGA series of anilinium cations with various functional groups as substituents has been chosen to form salts with L-tartaric acid and D-dibenzoyl tartaric acid. The salts show second harmonic generation activities comparable to urea. The tartrate frameworks provide conformationally rigid hydrogen bonded frameworks for the incorporation of these cations. The SHG activity of these salts appear to depend upon the type of framework provided by the tartrate anions, which in turn decides the orientation of the cations
A number of salts of substituted pyridines with $L$-tartaric acid were prepared. Their nonlinear opt...
The structure of aminoethylammonium tartrate, C2H9N2+.C4H5O6-, is ionic. Ethylenediamine forms a ver...
The structure of aminoethylammonium tartrate, C2H9N2+.C4H5O6-, is ionic. Ethylenediamine forms a ver...
A series of anilinium cations with various functional groups as substituents has been chosen to form...
A series of anilinium cations with various functional groups as substituents has been chosen to form...
Several substituted anilines were converted to binary salts with L-tartaric acid. Second harmonic ge...
Several substituted anilines were converted to binary salts with L-tartaric acid. Second harmonic ge...
Five tartrate-amine complexes have been studied in terms of crystal packing and hydrogen bonding fra...
Five tartrate-amine complexes have been studied in terms of crystal packing and hydrogen bonding fra...
Crystal structures of six binary salts involving aromatic amines as cations and hydrogen tartrates a...
Crystal structures of six binary salts involving aromatic amines as cations and hydrogen tartrates a...
The interaction of tetratopic amidinium-containing receptors with terephthalate anions leads to poro...
A number of salts of substituted pyridines with L-tartaric acid were prepared. Their nonlinear optic...
In the structure of the 1:1 proton-transfer compound from the reaction of l-tartaric acid with the a...
A number of salts of substituted pyridines with $L$-tartaric acid were prepared. Their nonlinear opt...
A number of salts of substituted pyridines with $L$-tartaric acid were prepared. Their nonlinear opt...
The structure of aminoethylammonium tartrate, C2H9N2+.C4H5O6-, is ionic. Ethylenediamine forms a ver...
The structure of aminoethylammonium tartrate, C2H9N2+.C4H5O6-, is ionic. Ethylenediamine forms a ver...
A series of anilinium cations with various functional groups as substituents has been chosen to form...
A series of anilinium cations with various functional groups as substituents has been chosen to form...
Several substituted anilines were converted to binary salts with L-tartaric acid. Second harmonic ge...
Several substituted anilines were converted to binary salts with L-tartaric acid. Second harmonic ge...
Five tartrate-amine complexes have been studied in terms of crystal packing and hydrogen bonding fra...
Five tartrate-amine complexes have been studied in terms of crystal packing and hydrogen bonding fra...
Crystal structures of six binary salts involving aromatic amines as cations and hydrogen tartrates a...
Crystal structures of six binary salts involving aromatic amines as cations and hydrogen tartrates a...
The interaction of tetratopic amidinium-containing receptors with terephthalate anions leads to poro...
A number of salts of substituted pyridines with L-tartaric acid were prepared. Their nonlinear optic...
In the structure of the 1:1 proton-transfer compound from the reaction of l-tartaric acid with the a...
A number of salts of substituted pyridines with $L$-tartaric acid were prepared. Their nonlinear opt...
A number of salts of substituted pyridines with $L$-tartaric acid were prepared. Their nonlinear opt...
The structure of aminoethylammonium tartrate, C2H9N2+.C4H5O6-, is ionic. Ethylenediamine forms a ver...
The structure of aminoethylammonium tartrate, C2H9N2+.C4H5O6-, is ionic. Ethylenediamine forms a ver...