Chemistry Reference
In-Depth Information
Chapter 13
Bondonic Chemistry: Predicting Ionic Liquids'
(IL) Bondons by Raman-IR Spectra
Mihai V. Putz, Nicoleta A. Dudas and Ana-Maria Putz
Abstract
The notable nowadays physical-chemical structures as ionic liquids (ILs)
are, due to their versatility properties adjusted by changing either the anion or
cation sides, with spread applications as solvents (viz. organic reaction, bio- and
nano-catalysis, polymerization), electrolytes (viz. fuel cells, batteries and sensors),
lubricants and additives (including fuel additives), or in chemical engineering in-
cluding separation (gas chromatography/GC-head space solvents, gas separation,
membranes extraction, extractive distillation), heat storage (as thermal fluids), till
the nano-technology (protein crystallization, liquids crystals and their use in monitor
displays, robotics and artificial muscles), just to name few, are in the present chapter
reviewed from the scientific generations created with their structural consequences;
they are then used as the compounds for which the recently predicted bondon as the
quantum quasi-particle of chemical bonding may be identified in the allied Raman/IR
spectra through a specific algorithm involving the bondonic quantum numbers pre-
diction in spectra and of their most tangible quantum appearance; this because the
invariable four-levels for bondonic formations confirms the quantum entangled states
associated with their existences, as just noted by Putz and Ori (
2015
), see Chap. 10
of the same monograph, while the objective realization associates either with IR or
Raman of IL computed spectra; connection with experimental recorded IR spectra
is also presented with encouragement perspective for bondonic observation, while
correlation with eco-toxicological data (EC50) is equally presented and interpreted
from a bondonic sub-atomic perspective.
