Van der Waals forces are the attractive forces of one transient dipole for another. |
|
These interactions are held together principally by weak van der Waals forces. |
|
The two components are not chemically bonded, but are linked by van der Waals forces. |
|
As the molecules are pushed closer together, the effects of small forces, such as van der Waals forces, become apparent. |
|
The molecules in paraffin wax, on the other hand, are only held together by weak van der Waals forces. |
|
A cut-off was used for van der Waals interactions and PME summation was used for calculation of the electrostatic interactions. |
|
It is believed that ionic, hydrophobic, charge-transfer, van der Waals interactions as well as steric effects can all play a role in the binding. |
|
The van der Waals force is long range, attractive, and relatively weak. |
|
The basic idea of the experiment is to suddenly neutralize the layer, so that the attractive van der Waals force will press the bead against the slide. |
|
His team discovered that van der Waals force helps the gecko's feet stick. |
|
Water molecules have poles of positive and negative electric charge that are known to create attractive forces between cells, known as van der Waals forces. |
|
According to Li, the force that holds the two nanoribbons together is a weak electrostatic attraction called the van der Waals force. |
|
For deagglomeration, it is necessary that the van der Waals forces are smaller than the dispersion force. |
|
Bound water associates closely with polymer substituents, while free water disrupts interchain van der Waals forces and acts as a plasticizer. |
|
Gecko toepads adhere through a combination of weak intermolecular forces, called van der Waals forces, and frictional adhesion. |
|
In physical chemistry, the name given to these intermolecular forces is van der Waals force. |
|
Bonding between layers is via weak van der Waals bonds, which allows layers of graphite to be easily separated, or to slide past each other. |
|
These are made of polymers linked by intermolecular interactions or van der Waals forces or the branched structures. |
|
Part 2 explains forces acting at long range between closed-shell atoms or molecules, focusing on the van der Waals bond and the hydrogen bond. |
|
The transfer rate between the nonparallel carbon nanotubes is extremely low due to the presence van der Waals forces among themselves. |
|
|
According to the studies, Van der Waals Force plays an important role in the creation of the bond. |
|
Van der Waals forces are typically seen when two very flat surfaces come in to contact with each other. |
|
According to Pecharsky, the molecules of organic compounds are bound to one another by relatively weak hydrogen bonds and a connectivity known as the van der Waals force. |
|
Van der Waals forces are rather weak compared to covalent bonds. |
|
In the mid 1980s Lovas and Suenram constructed a pulsed molecular beam Fourier Transform microwave spectrometer to study hydrogen bonded and van der Waals dimers and trimers. |
|
But for those of us who are not thrilled by van der Waals force analyses, it boils down to a simple question of what do we need in order to hold things together. |
|