Researchers captured electron motion in the water.

"Scientists used a synchronized attosecond X-ray pulse pair (pictured pink and green here) from an X-ray free electron laser to study the energetic response of electrons (gold) in liquid water on attosecond time scale, while the hydrogen (white) and oxygen (red) atoms are ‘frozen’ in time. Credit: Nathan Johnson | Pacific Northwest National Laboratory" (ScitecDaily, Atomic Freeze-Frame: Electron Motion in Water Captured For First Time)

Researchers saw how electrons move in water. That ability brings new visions for chemical and quantum chemical solutions. The new system can make any kind of chemical compound. But they require the ability to control the system. And it is impossible to control the system. 

If the controller cannot see interactions in the system. The ability to see how electrons move in the water makes it possible to control water. And the quantum chemical systems turn single water molecules using laser rays. 

The water molecule can used as a quantum antenna. That moves other molecules. The system can use water molecules as antennae. That transports electromagnetic impulses. Or it can used as a photo-acoustic tool, where laser rays put water molecules oscillate and transport acoustic oscillation to the structure. That phenomenon can used in new types of sonar systems. 

The laser satellites and aircraft can use photoacoustic systems for tracking submarines. And the best way is to make water molecules oscillate. 

Water molecules can be tools for next-generation computing and quantum engineering. Water molecules look a little bit like teddy bears. The ears are hydrogen, and the head is water. This structure makes water molecules a little bit polar. The water molecule interacts with magnetic fields. And that thing makes this thing useful in the quantum system. If all water molecules are in the same direction they can form the quantum cables. Or if the water molecules are around the magnet. 

That thing forms a structure. There all oxygen or hydrogen atoms are outside. This structure is close to the monopolar structure. The magnetic monopoles are not found, but that structure is as close to them as possible. In some tests, the electrons or protons are shot together using lasers. But those "optical monopoles" are not stable. And they are hard to control. 

The water molecules also can used in quantum computers and quantum memories. The idea is that the information is driven to water molecules. And then those molecules act as mass memories. But to make those things real, the system must control information in the water molecules. In some models, laser rays anchor water molecules in certain positions, and the quantum entanglement transports information between those atoms' quantum fields or locked electrons. The electromagnetic shadow of oxygen locks hydrogen in a certain position. And then information can travel between those electrons. 

Same way. The quantum shadow from protons can lock electrons in a certain position. That allows the system to create a hydrogen-oxygen chain. That is quite similar to the carbon chain. In those structures, another hydrogen atom is replaced with the chemical bond between oxygen. Those super-peroxides can connect with carbon and that allows us to use them in nanotechnology and special engineering. 

The new nano- and quantum chemistry allows to creation of things like chemical compounds that are harmless or safe. When those chemicals are in neutral mode they are harmless. But when they get a chemical activator that thing can turn harmless compounds into things, like acetylene. The requirement for that reaction is that the inactivator is removed from the molecule and then it just activates the chemical. 

It's theoretically possible that the formaldehyde CH2O. Which is highly inflammable and can somehow lose oxygen and turn into CH4 (Methane) if the system can replace oxygen with two hydrogen atoms. Then the system could transport that oxygen back to the reaction. If that reaction is self-sustaining, that thing can create a new type of energy source. The requirement for that is that the enzyme or some other chemical can remove oxygen from the formaldehyde and then that chemical tier must just remove oxygen back to the cycle. 

https://scitechdaily.com/atomic-freeze-frame-electron-motion-in-water-captured-for-first-time/