- Bond-dissociation energy
In chemistry, bond-dissociation energy (BDE) or D0, is one measure of the bond strength in a chemical bond. It is defined as the standard enthalpy change when a bond is cleaved by homolysis, with reactants and products of the homolysis reaction at 0 K (absolute zero). For instance, the bond-dissociation energy for one of the C-H bonds in ethane (C2H6) is defined by the process:
CH3CH2-H → CH3CH2· + H·
D0 = ΔH = 101.1 kcal/mol (423.0 kJ/mol)
The bond-dissociation energy is sometimes also called the bond-dissociation enthalpy (or bond enthalpy), but these terms are not strictly equivalent, as they refer to the above reaction enthalpy at standard conditions, and differ from D0 by about 1.5 kcal/mol (6 kJ/mol) in the case of a bond to hydrogen.
BDE vs bond energy
Except in the case of diatomic molecules, the bond-dissociation energy is different from the bond energy, which is an average calculated from the sum of the bond-dissociation energies of all bonds in a molecule.
For example, an HO-H bond of a water molecule (H-O-H) has 493.4 kJ/mol of bond-dissociation energy, and 424.4 kJ/mol is needed to cleave the remaining O-H bond. The bond energy of the covalent O-H bonds in water is 458.9 kJ/mol, which is the average of the values. Hydrogen bond-dissociation energy in water is about 23 kJ/mol.
In the same way for removing successive hydrogen atoms from methane the bond-dissociating energies are 104 kcal/mol (435 kJ/mol) for D(CH3-H), 106 kcal/mol (444 kJ/mol) for D(CH2-H), 106 kcal/mol (444 kJ/mol) for D(CH-H) and finally 81 kcal/mol (339 kJ/mol) for D(C-H). The bond energy is, thus, 99 kcal/mol or 414 kJ/mol (the average of the bond-dissociation energies). Notice that none of the C-H BDEs is 99 kcal/mol.
Note that, following dissociation, if new bonds are formed at lower enthalpy, then there is a net loss of energy, and thus an overall exothermic process.
Homolytic vs heterolytic dissociation
Bonds can be broken symmetrically or asymmetrically. The former is called homolysis and is the basis of the usual BDEs. Asymmetrical scission of a bond is called heterolysis. For molecular hydrogen, the alternatives are:
- H2 → 2 H· ΔG = 102 kcal/mol (see table below)
- H2 → H+ + H- ΔG = 66 kcal/mol (in water)
Bond Bond Bond-dissociation energy Comment (kcal/mole) (kJ/mole) C-H C-H bond 98 410 C-H bond strength affected by substituents
(see next table)
C-F C-F bond 117 490 one of the strongest single bonds to carbon C-Cl C-Cl bond 79 331 more labile than C-H and C-F bonds,
chlorocarbons degrade photochemically
C-Br C-Br bond 69 285 weaker than C-Cl bonds
bromocarbons are often labile and are useful fire retardants
C-C C-C bond 83-85 347-356 strong, but weaker than C-H bonds,
routinely broken by catalytic cracking
Cl-Cl chlorine 58 243 indicated by the yellowish colour of this gas Br-Br bromine 46 192 indicated by the brownish colour of Br2
source of the Br. radical
I-I iodine 36 151 indicated by the purplish colour of I2
source of the I. radical
H-H hydrogen 104 436 strong, nonpolarizable bond
cleaved only by metals and by strong oxidants
O-H hydroxyl 110 460 comparable to strength of O=O and C-H bonds O=O oxygen 119 494 strong bond, but O-H bonds are of comparable strength N≡N nitrogen 226 942 one of the strongest bonds
production of ammonia consumes significant energy
The data tabulated above shows how bond strengths vary over the periodic table. There is great interest, especially in organic chemistry, concerning bond strengths of bonds within a given group of compounds.
Bond Bond Bond-dissociation energy Comment (kcal/mole) (kJ/mole) H3C-H Methyl C-H bond 105 439 One of the strongest aliphatic C-H bonds C2H5-H Ethyl C-H bond 101 423 slightly weaker than H3C-H (CH3)3C-H tertiary C-H bond 96.5 404 tertiary radicals are stabilized CH2CH-H vinyl C-H bond 111 464 vinyl radicals are rare HC2-H acetylenic C-H bond 133 556 acetylenic radicals are very rare C6H5-H phenyl C-H bond 113 473 comparable to vinyl radical, rare CH2CHCH2-H allylic C-H bond 89 372 such bonds show enhanced reactivity C6H5CH2-H benzylic C-H bond 90 377 akin to allylic C-H bonds
such bonds show enhanced reactivity
H3C-CH3 Alkane C-C bond 83-85 347-356 much weaker than a C-H bond H2C=CH2 Alkene C=C bond 146-151 611-632 about 2x stronger than a C-C single bond HC≡CH alkyne C≡C triple bond 200 837 about 2.5x stronger than a C-C single bond
- ^ IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version: (1994) "Bond dissociation energy".
- ^ a b Blanksby, S. J.; Ellison, G. B.; (2003). "Bond Dissociation Energies of Organic Molecules". Acc. Chem. Res. 36 (4): 255–263. doi:10.1021/ar020230d. PMID 12693923.
- ^ Morrison & Boyd Organic Chemistry 4th Ed. ISBN 0-205-05838-8
- ^ Principles of biochemistry by Albert L. Lehninger, David Lee Nelson, Michael M. Cox; edition 4, page 48 
Wikimedia Foundation. 2010.
Look at other dictionaries:
Bond dissociation energy — In chemistry, bond dissociation energy, D0 or BDE, is one measure of the bond strength in a chemical bond. It is defined as the standard enthalpy change when a bond is cleaved by homolysis, [GoldBookRef |title=Bond dissociation energy… … Wikipedia
bond dissociation energy — noun The change in enthalpy that occurs when a specific chemical bond is broken; a measure of the strength of the bond … Wiktionary
dissociation energy — noun The energy needed to break every chemical bond in a molecule and completely separate all its atoms … Wiktionary
Bond cleavage — Bond cleavage, or scission, is the splitting of chemical bonds. If the two electrons in a cleaved covalent bond are divided between the products, the process is known as homolytic fission or homolysis. Alternatively, the case where both electrons … Wikipedia
Bond energy — In chemistry, bond energy ( E ) is a measure of bond strength in a chemical bond. For example the carbon hydrogen bond energy in methane E (C–H) is the enthalpy change involved with breaking up one molecule of methane into a carbon atom and 4… … Wikipedia
bond energy — noun a) The sum of the bond dissociation energies of all the bonds in a molecule b) The average or typical bond dissociation energy of a particular type of bond … Wiktionary
Bond strength — In chemistry, bond strength is measured between two atoms joined in a chemical bond [JerryMarch] . It is the degree to which each atom linked to a central atom contributes to the valency of this central atom. Bond strength is intimately linked to … Wikipedia
Bond length — In molecular geometry, bond length or bond distance is the average distance between nuclei of two bonded atoms in a molecule. Explanation Bond length is inversely related to bond order, when more electrons participate in bond formation the bond… … Wikipedia
Binding energy — Nuclear physics Radioactive decay Nuclear fission Nuclear fusion Classical decays … Wikipedia
Disulfide bond — In chemistry, a disulfide bond (Br.E. disulphide bond) is a covalent bond, usually derived by the coupling of two thiol groups. The linkage is also called an SS bond or disulfide bridge. The overall connectivity is therefore R S S R. The… … Wikipedia