stereochemistry

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Related to stereochemically: Stereomeric

ster·e·o·chem·is·try

 (stĕr′ē-ō-kĕm′ĭ-strē, stîr′-)
n.
The branch of chemistry that deals with spatial arrangements of atoms in molecules and the effects of these arrangements on the chemical and physical properties of substances.

ster′e·o·chem′i·cal (-ĭ-kəl) adj.

stereochemistry

(ˌstɛrɪəʊˈkɛmɪstrɪ; ˌstɪər-)
n
(Chemistry) the study of the spatial arrangement of atoms in molecules and the effect of spatial arrangement on chemical properties

ster•e•o•chem•is•try

(ˌstɛr i oʊˈkɛm ə stri, ˌstɪər-)

n.
the branch of chemistry that deals with the determination of the relative positions in space of the atoms or groups of atoms in a compound and with the effects of these positions on the properties of the compound.
[1885–90]
ster`e•o•chem′i•cal, adj.

ster·e·o·chem·is·try

(stĕr′ē-ō-kĕm′ĭ-strē)
The branch of chemistry that is concerned with the spatial arrangements of atoms in molecules and with the chemical and physical effects of these arrangements.
Translations
stéréochimie
References in periodicals archive ?
This conformation is confirmed by the biosynthetic approach, which involves a stereochemically controlled phenolic oxidative coupling reactions that resulted in a- orientation of the two methine protons (Dewick, 2009).
The packed column was able to resolve many chiral compounds, particularly stereochemically interesting aromatic compounds.
Summary: Development in the field of asymmetric catalysis is driven by the importance of stereochemically pure compounds in the field of pharmaceutical industry, agrochemicals and flavors.
Lower RMSD indicates stereochemically similar template and target structures, and the model with the best RMSD score was selected for further model validation study.
It is stereochemically stable in plasma and urine and undergoes limited metabolism in human.
However, adducts derived from the meso-diepoxide have not been prepared in stereochemically pure form.
In all complexes, both P N [pi]-bonding and the stereochemically active lone pair at phosphorus are retained, highlighting new hypervalent bonding environments for phosphorus(III).