CO2 is
a very stable molecule, and enormous amounts of energy are required to get it to react.
Not exact matches
The DNA
molecule is for the most part
very stable and conservative.
«Hyper - reactive
molecules like radialenes form more
stable substances
very quickly.
Manganese is a micronutrient that the body's cells can handle and forms a
very stable complex with the porphyrin, a type of pigment
molecule that can help to achieve the necessary properties.
This means that two metal electrodes are arranged
very closely to each other, such that the
molecule of about 2 nm in length is kept
stable between these electrodes for many days, while current through the junction can be measured.
The
molecules are typically
very stable and do not easily get biodegraded.
Although these
molecules are
very stable in tissues, prior to this study it was unclear whether they could still be found in human tissues after thousands of years.
Taking a revolutionary «building blocks» approach, researchers have pioneered a way to create a new class of
very large polymer
molecules, called macromolecules, which assemble themselves into strong,
stable structures.
Conversion of carbon dioxide into useful products is complicated by the fact that CO2 is the most oxidized form of carbon and as such a
very stable and unreactive
molecule.
The problem with certain toxic metals is that they tend to form
very stable and long - lasting complexes with sulfur in biological
molecules, which can disrupt their biological function.
There are no double bonds in the
molecule and that makes saturated fat
very stable.
In other words, the bonds are saturated making the
molecules very stable.
In case of water
molecules it's strong enough to make two -
molecule dimers
stable in free space (but
very easy to break up by weakest collisions).