Chemical Sciences: A Manual for CSIR-UGC National Eligibility Test for Lectureship and JRF/Gas phase ion chemistry
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Gas phase ion chemistry is a field of science encompassed within both chemistry and physics. It is the science that studies ions and molecules in the gas phase, most often enabled by some form of mass spectrometry. By far the most important applications for this science is in studying the thermodynamics and kinetics of reactions.[1][2] For example one application is in studying the thermodynamics of the solvation of ions. Ions with small solvation spheres of 1, 2, 3... solvent molecules can be studied in the gas phase and then extrapolated to bulk solution.
Theory
editTransition state theory
editTransition state theory is the theory of the rates of elementary reactions which assumes a special type of chemical equilibrium (quasi-equilibrium) between reactants and activated complexes.[3]
RRKM theory
editRRKM theory is used to compute simple estimates of the unimolecular ion decomposition reaction rates from a few characteristics of the potential energy surface.
Gas phase ion formation
editThe process of converting an atom or molecule into an ion by adding or removing charged particles such as electrons or other ions can occur in the gas phase. These processes are an important component of gas phase ion chemistry.
Associative ionization
editAssociative ionization is a gas phase reaction in which two atoms or molecules interact to form a single product ion.[4]
where species A with excess internal energy (indicated by the asterisk) interacts with B to form the ion AB+.
One or both of the interacting species may have excess internal energy.
Charge-exchange ionization
editCharge-exchange ionization (also called charge-transfer ionization) is a gas phase reaction between an ion and a neutral species
in which the charge of the ion is transferred to the neutral.[5]
Chemical ionization
editIn chemical ionization, ions are produced through the reaction of ions of a reagent gas with other species.[6] Some common reagent gases include: methane, ammonia, and isobutane.
Chemi-ionization
editChemi-ionization can be represented by
where G is the excited state species (indicated by the superscripted asterisk), and M is the species that is ionized by the loss of an electron to form the radical cation (indicated by the superscripted "plus-dot").
Penning ionization
editPenning ionization refers to the interaction between a gas-phase excited-state atom or molecule G* and a target molecule M resulting in the formation of a radical molecular cation M+., an electron e−, and a neutral gas molecule G:[7]
Penning ionization occurs when the target molecule has an ionization potential lower than the internal energy of the excited-state atom or molecule. Associative Penning ionization can also occur:
Fragmentation
editThere are many important dissociation reactions that take place in the gas phase.
Collision-induced dissociation
editCID (also called collisionally activated dissociation - CAD) is a method used to fragment molecular ions in the gas phase.[8][9] The molecular ions collide with neutral gas molecules such as helium, nitrogen or argon. In the collision some of the kinetic energy is converted into internal energy which results in fragmentation.
Charge remote fragmentation
editCharge remote fragmentation is a type of covalent bond breaking that occurs in a gas phase ion in which the cleaved bond is not adjacent to the location of the charge.[10][11]
Charge transfer reactions
editThere are several types of charge-transfer reactions[12] (also known as charge-permutation reactions[13]): partial-charge transfer
- ,
charge-stripping reaction[14]
- ,
and charge-inversion reaction[15] positive to negative
and negative to positive
- .
References
edit- ↑ Aubry, C. (2000). "Correlating thermochemical data for gas-phase ion chemistry". International Journal of Mass Spectrometry. 200: 277. doi:10.1016/S1387-3806(00)00323-7.
- ↑ Pure & Appl. Chem., Vol. 70, No. 10, pp. 1969-1976, 1998.
- ↑ International Union of Pure and Applied Chemistry. "Transition State Theory". Compendium of Chemical Terminology Internet edition.
- ↑ International Union of Pure and Applied Chemistry. "associative ionization". Compendium of Chemical Terminology Internet edition.
- ↑ International Union of Pure and Applied Chemistry. "charge-exchange ionization". Compendium of Chemical Terminology Internet edition.
- ↑ Munson, M.S.B.; Field, F.H. J. Am. Chem. Soc. 1966, 88, 2621-2630. Chemical Ionization Mass Spectrometry. I. General Introduction.
- ↑ International Union of Pure and Applied Chemistry. "Penning gas mixture". Compendium of Chemical Terminology Internet edition.
- ↑ Wells JM, McLuckey SA (2005). "Collision-induced dissociation (CID) of peptides and proteins". Meth. Enzymol. 402: 148–85. doi:10.1016/S0076-6879(05)02005-7. PMID 16401509.
- ↑ Sleno L, Volmer DA (2004). "Ion activation methods for tandem mass spectrometry". Journal of mass spectrometry : JMS. 39 (10): 1091–112. doi:10.1002/jms.703. PMID 15481084.
- ↑ Cheng C, Gross ML (2000). "Applications and mechanisms of charge-remote fragmentation". Mass Spectrom Rev. 19 (6): 398–420. doi:10.1002/1098-2787(2000)19:6<398::AID-MAS3>3.0.CO;2-B. PMID 11199379.
- ↑ Gross, M. (2000). "Charge-remote fragmentation: an account of research on mechanisms and applications". International Journal of Mass Spectrometry. 200: 611. doi:10.1016/S1387-3806(00)00372-9.
- ↑ International Union of Pure and Applied Chemistry. "charge-transfer reaction (in mass spectrometry)". Compendium of Chemical Terminology Internet edition.
- ↑ International Union of Pure and Applied Chemistry. "charge-permutation reaction". Compendium of Chemical Terminology Internet edition.
- ↑ International Union of Pure and Applied Chemistry. "charge-stripping reaction". Compendium of Chemical Terminology Internet edition.
- ↑ International Union of Pure and Applied Chemistry. "charge-inversion mass spectrum". Compendium of Chemical Terminology Internet edition.
Bibliography
edit- Fundamentals of gas phase ion chemistry, Keith R. Jennings (ed.), Dordrecht, Boston, Kluwer Academic, 1991, pp. 226-8
- Gas Phase Ion Chemistry, Michael T. Bowers, ed., Academic Press, New York, 1979
- Gas Phase Ion Chemistry Vol 2.; Bowers, M.T., Ed.; Academic Press: New York, 1979
- Gas Phase Ion Chemistry Vol 3., Michael T. Bowers, ed., Academic Press, New York, 1983