Bond Dissociation Energies

Bond Dissociation Energy for a bond A – B is defined as standard state enthalpy change for reaction AB → A + B at 298 kelvin temperature.

In other words or mathematically Bond Dissociation Energy for reaction AB → A + B can also be defined as differencece of sum of Heats of formation of A, B and AB.

Below is the mathematical formation for calculating Bond Dissociation Energy of a reaction.
Bond Dissociation Energy = \Delta H f_{298}(\mathrm{~A})+\Delta H f_{298}(\mathrm{~B})-\Delta H f_{298}(\mathrm{AB})
In the above formula \Delta H f_{298} means Heat of Formation at 298 kelvin.

Below in this article, I have put together data for Bond Dissociation Energies of bonds formed by atoms of different elements with atoms of other elements.

Table of Contents

Bond Dissociation Energies of Bonds Formed by Aluminium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Aluminium atom bond with Aluminium atomAl – Al186 kJ per mol
Aluminium atom bond with Arsenic atomAl – As180 kJ per mol
Aluminium atom bond with Gold atomAl – Au326 kJ per mol
Aluminium atom bond with Bromine atomAl – Br439 kJ per mol
Aluminium atom bond with Carbon atomAl – C255 kJ per mol
Aluminium atom bond with Chlorine atomAl – Cl494 kJ per mol
Aluminium atom bond with Copper atomAl – Cu216 kJ per mol
Aluminium atom bond with Fluorine atomAl – F664 kJ per mol
Aluminium atom bond with Hydrogen atomAl – H285 kJ per mol
Aluminium atom bond with Iodine atomAl – I368 kJ per mol
Aluminium atom bond with Lithium atomAl – Li176 kJ per mol
Aluminium atom bond with Nitrogen atomAl – N297 kJ per mol
Aluminium atom bond with Oxygen atomAl – O512 kJ per mol
Aluminium atom bond with Palladium atomAl – Pd259 kJ per mol
Aluminium atom bond with Sulphur atomAl – S374 kJ per mol
Aluminium atom bond with Selenium atomAl – Se334 kJ per mol
Aluminium atom bond with Silicon atomAl – Si251 kJ per mol
Aluminium atom bond with Tellurium atomAl – Te268 kJ per mol
Aluminium atom bond with Uranium atomAl – U326 kJ per mol

Bond Dissociation Energies of Bonds Formed by Antimony Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Antimony atom bond with Antimony atomSb – Sb299 kJ per mol
Antimony atom bond with Bromine atomSb – Br314 kJ per mol
Antimony atom bond with Chlorine atomSb – Cl360 kJ per mol
Antimony atom bond with Fluorine atomSb – F439 kJ per mol
Antimony atom bond with Nitrogen atomSb – N301 kJ per mol
Antimony atom bond with Oxygen atomSb – O372 kJ per mol
Antimony atom bond with Phosphorus atomSb – P357 kJ per mol
Antimony atom bond with Sulphur atomSb – S379 kJ per mol
Antimony atom bond with Tellurium atomSb – Te277.4 kJ per mol

Bond Dissociation Energies of Bonds Formed by Arsenic Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Arsenic atom bond with Arsenic atomAs – As382 kJ per mol
Arsenic atom bond with Chlorine atomAs – Cl448 kJ per mol
Arsenic atom bond with Gallium atomAs – Ga209.6 kJ per mol
Arsenic atom bond with Hydrogen atomAs – H272 kJ per mol
Arsenic atom bond with Nitrogen atomAs – N582 kJ per mol
Arsenic atom bond with Oxygen atomAs – O481 kJ per mol
Arsenic atom bond with Phosphorus atomAs – P534 kJ per mol
Arsenic atom bond with Sulphur atomAs – S478 kJ per mol
Arsenic atom bond with Selenium atomAs – Se96 kJ per mol
Arsenic atom bond with Thallium atomAs – Tl198 kJ per mol

Bond Dissociation Energies of Bonds Formed by Barium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Barium atom bond with Barium atomBa – Ba370 kJ per mol
Barium atom bond with Chlorine atomBa – Cl444 kJ per mol
Barium atom bond with Fluorine atomBa – F487 kJ per mol
Barium atom bond with Iodine atomBa – I431 kJ per mol
Barium atom bond with Oxygen atomBa – O563 kJ per mol
Barium atom bond with Sulphur atomBa – S400 kJ per mol

Bond Dissociation Energies of Bonds Formed by Beryllium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Beryllium atom bond with Beryllium atomBe – Be59 kJ per mol
Beryllium atom bond with Bromine atomBe – Br381 kJ per mol
Beryllium atom bond with Chlorine atomBe – Cl388 kJ per mol
Beryllium atom bond with Fluorine atomBe – F577 kJ per mol
Beryllium atom bond with Hydrogen atomBe – H226 kJ per mol
Beryllium atom bond with Oxygen atomBe – O448 kJ per mol
Beryllium atom bond with Sulphur atomBe – S372 kJ per mol

Bond Dissociation Energies of Bonds Formed by Bismuth Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Bismuth atom bond with Bismuth atomBi – Bi197 kJ per mol
Bismuth atom bond with Bromine atomBi – Br267 kJ per mol
Bismuth atom bond with Chlorine atomBi – Cl305 kJ per mol
Bismuth atom bond with Fluorine atomBi – F259 kJ per mol
Bismuth atom bond with Gallium atomBi – Ga159 kJ per mol
Bismuth atom bond with Hydrogen atomBi – H279 kJ per mol
Bismuth atom bond with Oxygen atomBi – O343 kJ per mol
Bismuth atom bond with Phosphorus atomBi – P280 kJ per mol
Bismuth atom bond with Lead atomBi – pb142 kJ per mol
Bismuth atom bond with Sulphur atomBi – S316 kJ per mol
Bismuth atom bond with Antimony atomBi – Sb251 kJ per mol
Bismuth atom bond with Selenium atomBi – Se280 kJ per mol
Bismuth atom bond with Tellurium atomBi – Te232 kJ per mol
Bismuth atom bond with Thallium atomBi – Tl121 kJ per mol

Bond Dissociation Energies of Bonds Formed by Boron Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Boron atom bond with Boron atomB – B297 kJ per mol
Boron atom bond with Bromine atomB – Br435 kJ per mol
Boron atom bond with Carbon atomB – C448 kJ per mol
Boron atom bond with Chlorine atomB – Cl536 kJ per mol
Boron atom bond with Fluorine atomB – F766 kJ per mol
Boron atom bond with Hydrogen atomB – H330 kJ per mol
Boron atom bond with Iodine atomB – I384 kJ per mol
Boron atom bond with Nitrogen atomB – N389 kJ per mol
Boron atom bond with Oxygen atomB – O806 kJ per mol
Boron atom bond with Phosphorus atomB – P347 kJ per mol
Boron atom bond with Sulphur atomB – S581 kJ per mol
Boron atom bond with Selenium atomB – Se462 kJ per mol
Boron atom bond with Silicon atomB – Si289 kJ per mol
Boron atom bond with Tellurium atomB – Te354 kJ per mol

Bond Dissociation Energies of Bonds Formed by Bromine Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Bromine atom bond with Bromine atomBr – Br193.870 kJ per mol
Bromine atom bond with Carbon atomBr – C280 kJ per mol
Bromine atom bond with Chlorine atomBr – Cl218.84 kJ per mol
Bromine atom bond with Fluorine atomBr – F233.8 kJ per mol
Bromine atom bond with Nitrogen atomBr – N276 kJ per mol
Bromine atom bond with Oxygen atomBr – O235.1 kJ per mol

Bond Dissociation Energies of Bonds Formed by Cadmium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Cadmium atom bond with Cadmium atomCd – Cd11.3 kJ per mol
Cadmium atom bond with Bromine atomCd – Br159 kJ per mol
Cadmium atom bond with Chlorine atomCd – Cl206.7 kJ per mol
Cadmium atom bond with Fluorine atomCd – F305 kJ per mol
Cadmium atom bond with Hydrogen atomCd – H69.0 kJ per mol
Cadmium atom bond with Iodine atomCd – I138 kJ per mol
Cadmium atom bond with Indium atomCd – In138 kJ per mol
Cadmium atom bond with Oxygen atomCd – O142 kJ per mol
Cadmium atom bond with Sulphur atomCd – S196 kJ per mol
Cadmium atom bond with Selenium atomCd – Se310 kJ per mol

Bond Dissociation Energies of Bonds Formed by Calcium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Calcium atom bond with Calcium atomCa – Ca14.98 kJ per mol
Calcium atom bond with Bromine atomCa – Br321 kJ per mol
Calcium atom bond with Chlorine atomCa – Cl398 kJ per mol
Calcium atom bond with Fluorine atomCa – F527 kJ per mol
Calcium atom bond with Hydrogen atomCa – H167.8 kJ per mol
Calcium atom bond with Iodine atomCa – I285 kJ per mol
Calcium atom bond with Oxygen atomCa – O464 kJ per mol
Calcium atom bond with Sulphur atomCa – S314 kJ per mol

Bond Dissociation Energies of Bonds Formed by Carbon Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Carbon atom bond with Carbon atomC – C607 kJ per mol
Carbon atom bond with Chlorine atomC – Cl397 kJ per mol
Carbon atom bond with Fluorine atomC – F536 kJ per mol
Carbon atom bond with Hydrogen atomC – H337.2 kJ per mol
Carbon atom Single Bond with Oxygen atomC – O1076.5 kJ per mol
Carbon atom Double Bond with Oxygen atomC = O749 kJ per mol
Carbon atom Triple Bond with Oxygen atomC ≡ O1075 kJ per mol
Carbon atom bond with Phosphorus atomC – P513 kJ per mol
Carbon atom bond with Sulphur atomC – S699 kJ per mol
Carbon atom bond with Selenium atomC – Se582 kJ per mol

Bond Dissociation Energies of Bonds Formed by Cerium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Cerium atom bond with Cerium atomCe – Ce243 kJ per mol
Cerium atom bond with Fluorine atomCe – F582 kJ per mol
Cerium atom bond with Nitrogen atomCe – N519 kJ per mol
Cerium atom bond with Oxygen atomCe – O795 kJ per mol
Cerium atom bond with Sulphur atomCe – S573 kJ per mol
Cerium atom bond with Selenium atomCe – Se495 kJ per mol
Cerium atom bond with Tellurium atomCe – Te389 kJ per mol

Bond Dissociation Energies of Bonds Formed by Cesium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Cesium atom bond with Cesium atomCs – Cs41.75 kJ per mol
Cesium atom bond with Bromine atomCs – Br397.5 kJ per mol
Cesium atom bond with Chlorine atomCs – Cl439 kJ per mol
Cesium atom bond with Fluorine atomCs – F514 kJ per mol
Cesium atom bond with Hydrogen atomCs – H178.1 kJ per mol
Cesium atom bond with Iodine atomCs – I339 kJ per mol
Cesium atom bond with Oxygen atomCs – O385 kJ per mol

Bond Dissociation Energies of Bonds Formed by Chlorine Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Chlorine atom bond with Chlorine atomCl – Cl242.580 kJ per mol
Chlorine atom bond with Carbon atomCl – C338 kJ per mol
Chlorine atom bond with Fluorine atomCl – F250.54 kJ per mol
Chlorine atom bond with Nitrogen atomCl – N389 kJ per mol
Chlorine atom bond with Oxygen atomCl – O272 kJ per mol
Chlorine atom bond with Phosphorus atomCl – P289 kJ per mol

Bond Dissociation Energies of Bonds Formed by Chromium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Chromium atom bond with Chromium atomCr – Cr155 kJ per mol
Chromium atom bond with Bromine atomCr – Br328 kJ per mol
Chromium atom bond with Chlorine atomCr – Cl366 kJ per mol
Chromium atom bond with Fluroine atomCr – F437 kJ per mol
Chromium atom bond with Gellium atomCr – Ge170 kJ per mol
Chromium atom bond with Hydrogen atomCr – H280 kJ per mol
Chromium atom bond with Iodine atomCr – I287 kJ per mol
Chromium atom bond with Nitrogen atomCr – N387 kJ per mol
Chromium atom bond with Oxygen atomCr – O427 kJ per mol
Chromium atom bond with Sulphur atomCr – S339 kJ per mol

Bond Dissociation Energies of Bonds Formed by Cobalt Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Cobalt atom bond with Cobalt atomCo – Co167 kJ per mol
Cobalt atom bond with Bromine atomCo – Br331 kJ per mol
Cobalt atom bond with Chlorine atomCo – Cl398 kJ per mol
Cobalt atom bond with Copper atomCo – Cu162 kJ per mol
Cobalt atom bond with Fluorine atomCo – F435 kJ per mol
Cobalt atom bond with Gellium atomCo – Ge239 kJ per mol
Cobalt atom bond with Iodine atomCo – I235 kJ per mol
Cobalt atom bond with Oxygen atomCo – O368 kJ per mol
Cobalt atom bond with Sulphur atomCo – S343 kJ per mol

Bond Dissociation Energies of Bonds Formed by Copper Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Copper atom bond with Copper atomCu – Cu202 kJ per mol  
Copper atom bond with Bromine atomCu – Br331 kJ per mol
Copper atom bond with Chlorine atomCu – Cl383 kJ per mol
Copper atom bond with Fluorine atomCu – F431 kJ per mol
Copper atom bond with Gallium atomCu – Ga216 kJ per mol
Copper atom bond with Germanium atomCu – Ge209 kJ per mol
Copper atom bond with Hydrogen atomCu – H280 kJ per mol
Copper atom bond with Iodine atomCu – I197 kJ per mol
Copper atom bond with Nickel atomCu – Ni206 kJ per mol
Copper atom bond with Oxygen atomCu – O343 kJ per mol
Copper atom bond with Sulphur atomCu – S285 kJ per mol
Copper atom bond with Selenium atomCu – Se293 kJ per mol
Copper atom bond with Tin atomCu – Sn177 kJ per mol
Copper atom bond with Tellurium atomCu – Te176 kJ per mol

Bond Dissociation Energies of Bonds Formed by Fluorine Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Fluorine atom bond with Fluorine atomF – F156.9 kJ per mol
Fluorine atom bond with Fluorine CationF – F+251 kJ per mol
Fluorine atom bond with Nitrogen atomF – N301 kJ per mol

Bond Dissociation Energies of Bonds Formed by Gallium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Gallium atom bond with Gallium atomGa – Ga138 kJ per mol
Gallium atom bond with Bromine atomGa – Br444 kJ per mol
Gallium atom bond with Chlorine atomGa – Cl481 kJ per mol
Gallium atom bond with Fluorine atomGa – F577 kJ per mol
Gallium atom bond with Hydrogen atomGa – H274 kJ per mol
Gallium atom bond with Iodine atomGa – I339 kJ per mol
Gallium atom bond with Oxygen atomGa – O285 kJ per mol
Gallium atom bond with Phosphorus atomGa – P230 kJ per mol
Gallium atom bond with Antimony atomGa – Sb209 kJ per mol
Gallium atom bond with Tellurium atomGa – Te251 kJ per mol

Bond Dissociation Energies of Bonds Formed by Germanium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Germanium atom bond with Germanium atomGe – Ge274 kJ per mol
Germanium atom bond with Bromine atomGe – Br255 kJ per mol
Germanium atom bond with Chlorine atomGe – Cl431.8 kJ per mol
Germanium atom bond with Fluorine atomGe – F485 kJ per mol
Germanium atom bond with Hydrogen atomGe – H321.3 kJ per mol
Germanium atom bond with Oxygen atomGe – O662 kJ per mol
Germanium atom bond with Sulphur atomGe – S551.0 kJ per mol
Germanium atom bond with Selenium atomGe – Se490 kJ per mol
Germanium atom bond with Silicon atomGe – Si301 kJ per mol
Germanium atom bond with Tellurium atomGe – Te402 kJ per mol

Bond Dissociation Energies of Bonds Formed by Gold Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Gold atom bond with Gold atomAu – Au221.3 kJ per mol
Gold atom bond with Boron atomAu – B368 kJ per mol
Gold atom bond with Beryllium atomAu – Be285 kJ per mol
Gold atom bond with Bismuth atomAu – Bi293 kJ per mol
Gold atom bond with Chlorine atomAu – Cl343 kJ per mol
Gold atom bond with Cobalt atomAu – Co215 kJ per mol
Gold atom bond with Chromium atomAu – Cr215 kJ per mol
Gold atom bond with Copper atomAu – Cu232 kJ per mol
Gold atom bond with Iron atomAu – Fe187 kJ per mol
Gold atom bond with Gallium atomAu – Ga294 kJ per mol
Gold atom bond with Germanium atomAu – Ge277 kJ per mol
Gold atom bond with Hydrogen atomAu – H314 kJ per mol
Gold atom bond with Lanthanum atomAu – La80 kJ per mol
Gold atom bond with Hydrogen atomAu – H314 kJ per mol
Gold atom bond with Lithium atomAu – Li68.0 kJ per mol
Gold atom bond with Magnesium atomAu – Mg243 kJ per mol
Gold atom bond with Hydrogen atomAu – H314 kJ per mol
Gold atom bond with Lanthanum atomAu – La80 kJ per mol
Gold atom bond with Lithium atomAu – Li68.0 kJ per mol
Gold atom bond with Magnesium atomAu – Mg243 kJ per mol
Gold atom bond with Nickel atomAu – Ni274 kJ per mol
Gold atom bond with Manganese atomAu – Mn185 kJ per mol
Gold atom bond with Palladium atomAu – Pd143 kJ per mol
Gold atom bond with Rhodium atomAu – Rh231 kJ per mol
Gold atom bond with Sulphur atomAu – S418 kJ per mol
Gold atom bond with Silicon atomAu – Si312 kJ per mol
Gold atom bond with Tin atomAu – Sn244 kJ per mol
Gold atom bond with Lead atomAu – Pb130 kJ per mol
Gold atom bond with Tellurium atomAu – Te247 kJ per mol
Gold atom bond with Uranium atomAu – U318 kJ per mol

Bond Dissociation Energies of Bonds Formed by Hydrogen Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Hydrogen atom bond with Hydrogen atomH – H436.002 kJ per mol
Hydrogen atom bond with Deuterium atomH – D439.446 kJ per mol
Hydrogen atom bond with Bromine atomH – Br365.7 kJ per mol
Hydrogen atom bond with Carbon atomH – C337.2 kJ per mol
Hydrogen atom bond with Chloring atomH – Cl431.8 kJ per mol
Hydrogen atom bond with Fluorine atomH – F568.6 kJ per mol
Hydrogen atom bond with Iodine atomH – I298.7 kJ per mol
Hydrogen atom bond with Nitrogen atomH – N314 kJ per mol
Hydrogen atom bond with Oxygen atomH – O428.0 kJ per mol
Hydrogen atom bond with Phosphorus atomH – P343 kJ per mol
Hydrogen atom bond with Sulphur atomH – S344 kJ per mol
Hydrogen atom bond with Selenium atomH – Se305 kJ per mol
Hydrogen atom bond with Silicon atomH – Si298.49 kJ per mol
Hydrogen atom bond with Tellurium atomH – Te268 kJ per mol

Bond Dissociation Energies of Bonds Formed by Indium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Indium atom bond with Indium atomIn – In100 kJ per mol
Indium atom bond with Bromine atomIn – Br418 kJ per mol
Indium atom bond with Chlorine atomIn – Cl439 kJ per mol
Indium atom bond with Fluorine atomIn – F506 kJ per mol
Indium atom bond with Oxygen atomIn – O360 kJ per mol
Indium atom bond with Phosphorus atomIn – P197.9 kJ per mol
Indium atom bond with Sulphur atomIn – S289 kJ per mol
Indium atom bond with Antimony atomIn – Sb152 kJ per mol
Indium atom bond with Selenium atomIn – Se247 kJ per mol
Indium atom bond with Tellurium atomIn – Te218 kJ per mol

Bond Dissociation Energies of Bonds Formed by Iodine Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Iodine atom bond with Iodine atomI – I152.549
Iodine atom bond with Bromine atomI – Br179.1
Iodine atom bond with Chlorine atomI – Cl213.3
Iodine atom bond with Fluorine atomI – F280
Iodine atom bond with Nitrogen atomI – N159
Iodine atom bond with Oxygen atomI – O184

Bond Dissociation Energies of Bonds Formed by Iron Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Iron atom bond with Iron atomFe – Fe100 kJ per mol
Iron atom bond with Bromine atomFe – Br247 kJ per mol
Iron atom bond with Chlorine atomFe – Cl352 kJ per mol
Iron atom bond with Oxygen atomFe – O409 kJ per mol
Iron atom bond with Sulphur atomFe – S339 kJ per mol
Iron atom bond with Silicon atomFe – Si297 kJ per mol

Bond Dissociation Energies of Bonds Formed by Lanthanum Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Lanthanum atom bond with Lanthanum atomLa – La247 kJ per mol
Lanthanum atom bond with Carbon atomLa – C506 kJ per mol
Lanthanum atom bond with Fluroine atomLa – F598 kJ per mol
Lanthanum atom bond with Nitrogen atomLa – N519 kJ per mol
Lanthanum atom bond with Oxygen atomLa – O799 kJ per mol
Lanthanum atom bond with Sulphur atomLa – S577 kJ per mol

Bond Dissociation Energies of Bonds Formed by Lead Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Lead atom bond with Lead atomPb – Pb339 kJ per mol
Lead atom bond with Bromine atomPb – Br247 kJ per mol
Lead atom bond with Chlorine atomPb – Cl301 kJ per mol
Lead atom bond with Fluorine atomPb – F356 kJ per mol
Lead atom bond with Hydrogen atomPb – H176 kJ per mol
Lead atom bond with Iodine atomPb – I197 kJ per mol
Lead atom bond with Oxygen atomPb – O378 kJ per mol
Lead atom bond with Sulphur atomPb – S346.0 kJ per mol
Lead atom bond with Selenium atomPb – Se303 kJ per mol
Lead atom bond with Tellurium atomPb – Te251 kJ per mol

Bond Dissociation Energies of Bonds Formed by Lithium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Lithium atom bond with Lithium atomLi – Li106 kJ per mol
Lithium atom bond with Bromine atomLi – Br423 kJ per mol
Lithium atom bond with Chlorine atomLi – Cl469 kJ per mol
Lithium atom bond with Fluorine atomLi – F577 kJ per mol
Lithium atom bond with Hydrogen atomLi – H247 kJ per mol
Lithium atom bond with Iodine atomLi – I352 kJ per mol
Lithium atom bond with Sodium atomLi – Na88 kJ per mol
Lithium atom bond with Oxygen atomLi – O341 kJ per mol

Bond Dissociation Energies of Bonds Formed by Lutetium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Lutetium atom bond with Lutetium atomLu – Lu142 kJ per mol
Lutetium atom bond with Fluroine atomLu – F569 kJ per mol
Lutetium atom bond with Oxygen atomLu – O695 kJ per mol
Lutetium atom bond with Sulphur atomLu – S507 kJ per mol
Lutetium atom bond with Tellurium atomLu – Te326 kJ per mol

Bond Dissociation Energies of Bonds Formed by Magnesium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Magnesium atom bond with Magnesium atomMg – Mg8.522 kJ per mol
Magnesium atom bond with Bromine atomMg – Br297 kJ per mol
Magnesium atom bond with Chlorine atomMg – Cl318 kJ per mol
Magnesium atom bond with Fluorin atomMg – F462 kJ per mol
Magnesium atom bond with Hydrogen atomMg – H197 kJ per mol
Magnesium atom bond with Iodine atomMg – I285 kJ per mol
Magnesium atom bond with Oxygen atomMg – O394 kJ per mol
Magnesium atom bond with Sulphur atomMg – S310 kJ per mol

Bond Dissociation Energies of Bonds Formed by Manganese Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Manganese atom bond with Manganese atomMn – Mn42 kJ per mol
Manganese atom bond with Bromine atomMn – Br314 kJ per mol
Manganese atom bond with Chlorine atomMn – Cl361 kJ per mol
Manganese atom bond with Fluorine atomMn – F423 kJ per mol
Manganese atom bond with Iodine atomMn – I283 kJ per mol
Manganese atom bond with Copper atomMn – Cu159 kJ per mol
Manganese atom bond with Oxygen atomMn – O402 kJ per mol
Manganese atom bond with Sulphur atomMn – S301 kJ per mol
Manganese atom bond with Selenium atomMn – Se201 kJ per mol

Bond Dissociation Energies of Bonds Formed by Mercury Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Mercury atom bond with Mercury atomHg – Hg17.2 kJ per mol
Mercury atom bond with Bromine atomHg – Br72.8 kJ per mol
Mercury atom bond with Chlorine atomHg – Cl100 kJ per mol
Mercury atom bond with Fluroine atomHg – F130 kJ per mol
Mercury atom bond with Hydrogen atomHg – H39.8 kJ per mol
Mercury atom bond with Iodine atomHg – I38 kJ per mol
Mercury atom bond with Potassium atomHg – K8.24 kJ per mol
Mercury atom bond with Sodium atomHg – Na6.7 kJ per mol
Mercury atom bond with Sulphur atomHg – S213 kJ per mol
Mercury atom bond with Selenium atomHg – Se167 kJ per mol
Mercury atom bond with Tellurium atomHg – Te142 kJ per mol

Bond Dissociation Energies of Bonds Formed by Molybdenum Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Molybdenum atom bond with Molybdenum atomMo – I372 kJ per mol
Molybdenum atom bond with Oxygen atomMo – O607 kJ per mol

Bond Dissociation Energies of Bonds Formed by Neodymium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Neodymium atom bond with Fluorine atomNd – F545 kJ per mol
Neodymium atom bond with Oxygen atomNd – O703 kJ per mol
Neodymium atom bond with Sulphur atomNd – S474 kJ per mol
Neodymium atom bond with Selenium atomNd – Se385 kJ per mol
Neodymium atom bond with Tellurium atomNd – Te305 kJ per mol

Bond Dissociation Energies of Bonds Formed by Neon Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Neon atom bond with Neon atomNe – Ne3.93 kJ per mol

Bond Dissociation Energies of Bonds Formed by Nickel Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Nickel atom bond with Nickel atomNi – Ni261.9 kJ per mol
Nickel atom bond with Bromine atomNi – Br360 kJ per mol
Nickel atom bond with Chlorine atomNi – Cl372 kJ per mol
Nickel atom bond with Fluorine atomNi – F435 kJ per mol
Nickel atom bond with Hydrogen atomNi – H289 kJ per mol
Nickel atom bond with Iodine atomNi – I293 kJ per mol
Nickel atom bond with Oxygen atomNi – O391.6 kJ per mol
Nickel atom bond with Sulphur atomNi – S360 kJ per mol
Nickel atom bond with Silicon atomNi – Si318 kJ per mol

Bond Dissociation Energies of Bonds Formed by Niobium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Niobium atom bond with Niobium atomNb – O753 kJ per mol

Bond Dissociation Energies of Bonds Formed by Nitrogen Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Nitrogen atom bond with Nitrogen atomN – N945.33 kJ per mol
Nitrogen atom bond with Bromine atomN – Br276 kJ per mol
Nitrogen atom bond with Chlorine atomN – Cl389 kJ per mol
Nitrogen atom bond with Fluorine atomN – F301 kJ per mol
Nitrogen atom bond with Iodine atomN – I159 kJ per mol
Nitrogen atom bond with Oxygen atomN – O630.57 kJ per mol
Nitrogen atom bond with Phosphorus atomN – P617 kJ per mol
Nitrogen atom bond with Sulphur atomN – S464 kJ per mol

Bond Dissociation Energies of Bonds Formed by Oxygen Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Oxygen atom bond with Oxygen atomO – O498.34 kJ per mol
Oxygen atom bond with Bromine atomO – Br235.1 kJ per mol
Oxygen atom bond with Chlorine atomO – Cl272 kJ per mol
Oxygen atom bond with Fluorine atomO – F222 kJ per mol
Oxygen atom bond with Iodine atomO – I184 kJ per mol
Oxygen atom bond with Nitrogen atomO – N630.57 kJ per mol

Bond Dissociation Energies of Bonds Formed by Palladium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Palladium atom bond with Oxygen atomPd – O234 kJ per mol

Bond Dissociation Energies of Bonds Formed by Phosphorus Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Phosphorus atom bond with Phosphorus atomP – P490 kJ per mol
Phosphorus atom bond with Bromine atomP – Br266.5 kJ per mol
Phosphorus atom bond with Carbon atomP – C513 kJ per mol
Phosphorus atom bond with Chlorine atomP – Cl289 kJ per mol
Phosphorus atom bond with Fluorine atomP – F439 kJ per mol
Phosphorus atom bond with Hydrogen atomP – H343 kJ per mol
Phosphorus atom bond with Nitrogen atomP – N617 kJ per mol
Phosphorus atom bond with Oxygen atomP – O596.6 kJ per mol
Phosphorus atom Single Bond with Sulphur atomP – S346.0 kJ per mol
Phosphorus atom Double Bond with Sulphur atomP = S347 kJ per mol
Phosphorus atom bond with Selenium atomP – Se363 kJ per mol
Phosphorus atom bond with Tellurium atomP – Te298 kJ per mol

Bond Dissociation Energies of Bonds Formed by Platinum Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Platinum atom bond with Boron atomPt – B478 kJ per mol
Platinum atom bond with Hydrogen atomPt – H352 kJ per mol
Platinum atom bond with Oxygen atomPt – O347 kJ per mol
Platinum atom bond with Phosphorus atomPt – P417 kJ per mol
Platinum atom bond with Silicon atomPt – Si501 kJ per mol

Bond Dissociation Energies of Bonds Formed by Potassium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Potassium atom bond with Potassium atomK – K57.3 kJ per mol
Potassium atom bond with Bromine atomK – Br383 kJ per mol
Potassium atom bond with Chlorine atomK – Cl427 kJ per mol
Potassium atom bond with Fluorine atomK – F497.5 kJ per mol
Potassium atom bond with Hydrogen atomK – H183 kJ per mol
Potassium atom bond with Iodine atomK – I331 kJ per mol
Potassium atom bond with Sodium atomK – Na63.6 kJ per mol
Potassium atom bond with Oxygen atomK – O239 kJ per mol

Bond Dissociation Energies of Bonds Formed by Rhodium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Rhodium atom bond with Rhodium atomRh – Rh285 kJ per mol
Rhodium atom bond with Boron atomRh – B476 kJ per mol
Rhodium atom bond with Carbon atomRh – C583.7 kJ per mol
Rhodium atom bond with Oxygen atomRh – O377 kJ per mol
Rhodium atom bond with Silicon atomRh – Si395 kJ per mol
Rhodium atom bond with Titanium atomRh – Ti391 kJ per mol

Bond Dissociation Energies of Bonds Formed by Rubidium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Rubidium atom bond with Rubidium atomRb – Rb45.6 kJ per mol
Rubidium atom bond with Bromine atomRb – Br389 kJ per mol
Rubidium atom bond with Chlorine atomRb – Cl448 kJ per mol
Rubidium atom bond with Fluorine atomRb – F494 kJ per mol
Rubidium atom bond with Hydrogen atomRb – H167 kJ per mol
Rubidium atom bond with Iodine atomRb – I335 kJ per mol
Rubidium atom bond with Oxygen atomRb – O255 kJ per mol

Bond Dissociation Energies of Bonds Formed by Ruthenium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Ruthenium atom bond with Oxygen atomRu – O481 kJ per mol
Ruthenium atom bond with Silicon atomRu – Si397 kJ per mol

Bond Dissociation Energies of Bonds Formed by Scandium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Scandium atom bond with Scandium atomSc – Sc163 kJ per mol
Scandium atom bond with Bromine atomSc – Br444 kJ per mol
Scandium atom bond with Carbon atomSc – C393 kJ per mol
Scandium atom bond with Chlorine atomSc – Cl318 kJ per mol
Scandium atom bond with Fluorine atomSc – F589 kJ per mol
Scandium atom bond with Nitrogen atomSc – N469 kJ per mol
Scandium atom bond with Oxygen atomSc – O674 kJ per mol
Scandium atom bond with Sulphur atomSc – S478 kJ per mol
Scandium atom bond with Selenium atomSc – Se385 kJ per mol
Scandium atom bond with Tellurium atomSc – Te289 kJ per mol

Bond Dissociation Energies of Bonds Formed by Selenium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Selenium atom bond with Selenium atomSe – Se332.6 kJ per mol
Selenium atom bond with Bromine atomSe – Br297 kJ per mol
Selenium atom bond with Carbon atomSe – C582 kJ per mol
Selenium atom bond with Chlorine atomSe – Cl322 kJ per mol
Selenium atom bond with Fluorine atomSe – F339 kJ per mol
Selenium atom bond with Hydrogen atomSe – H305 kJ per mol
Selenium atom bond with Nitrogen atomSe – N381 kJ per mol
Selenium atom bond with Oxygen atomSe – O423 kJ per mol
Selenium atom bond with Phosphorus atomSe – P364 kJ per mol
Selenium atom bond with Sulphur atomSe – S381 kJ per mol
Selenium atom bond with Silicon atomSe – Si531 kJ per mol
Selenium atom bond with Tellurium atomSe – Te268 kJ per mol

Bond Dissociation Energies of Bonds Formed by Silicon Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Silicon atom bond with Silicon atomSi – Si327 kJ per mol
Silicon atom bond with Bromine atomSi – Br343 kJ per mol
Silicon atom bond with Carbon atomSi – C435 kJ per mol
Silicon atom bond with Chlorine atomSi – Cl456 kJ per mol
Silicon atom bond with Fluorine atomSi – F540 kJ per mol
Silicon atom bond with Hydrogen atomSi – H298.49 kJ per mol
Silicon atom bond with Iodine atomSi – I339 kJ per mol
Silicon atom bond with Nitrogen atomSi – N439 kJ per mol
Silicon atom bond with Oxygen atomSi – O798 kJ per mol
Silicon atom bond with Sulphur atomSi – S619 kJ per mol
Silicon atom bond with Selenium atomSi – Se531 kJ per mol
Silicon atom bond with Tellurium atomSi – Te506 kJ per mol

Bond Dissociation Energies of Bonds Formed by Silver Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Silver atom bond with Silver atomAg – Ag163 kJ per mol
Silver atom bond with Gold atomAg – Au203 kJ per mol
Silver atom bond with Bismuth atomAg – Bi193 kJ per mol
Silver atom bond with Bromine atomAg – Br293 kJ per mol
Silver atom bond with Chlorine atomAg – Cl341.4 kJ per mol
Silver atom bond with Copper atomAg – Cu176 kJ per mol
Silver atom bond with Fluorine atomAg – F354 kJ per mol
Silver atom bond with Gallium atomAg – Ga180 kJ per mol
Silver atom bond with Germanium atomAg – Ge175 kJ per mol
Silver atom bond with Hydrogen atomAg – H226 kJ per mol
Silver atom bond with Iodine atomAg – I234 kJ per mol
Silver atom bond with Indium atomAg – In176 kJ per mol
Silver atom bond with Oxygen atomAg – O213 kJ per mol
Silver atom bond with Tin atomAg – Sn136 kJ per mol
Silver atom bond with Tellurium atomAg – Te293 kJ per mol

Bond Dissociation Energies of Bonds Formed by Sodium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Sodium atom bond with Sodium atomNa – Na77.0 kJ per mol
Sodium atom bond with Bromine atomNa – Br370 kJ per mol
Sodium atom bond with Chlorine atomNa – Cl410 kJ per mol
Sodium atom bond with Fluorine atomNa – F481 kJ per mol
Sodium atom bond with Hydrogen atomNa – H201 kJ per mol
Sodium atom bond with Iodine atomNa – I301 kJ per mol
Sodium atom bond with Potassium atomNa – K63.6 kJ per mol
Sodium atom bond with Oxygen atomNa – O257 kJ per mol
Sodium atom bond with Rubidium atomNa – Rb59 kJ per mol

Bond Dissociation Energies of Bonds Formed by Sulphur Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Sulphur atom bond with Sulphur atomS – S429 kJ per mol
Sulphur atom bond with Chlorine atomS – Cl255 kJ per mol
Sulphur atom bond with Fluorine atomS – F343 kJ per mol
Sulphur atom bond with Nitrogen atomS – N464 kJ per mol
Sulphur atom bond with Oxygen atomS – O521.70 kJ per mol

Bond Dissociation Energies of Bonds Formed by Tellurium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Tellurium atom bond with Boron atomTe – B354 kJ per mol
Tellurium atom bond with Hydrogen atomTe – H268 kJ per mol
Tellurium atom bond with Iodine atomTe – I193 kJ per mol
Tellurium atom bond with Oxygen atomTe – O391 kJ per mol
Tellurium atom bond with Phosphorus atomTe – P298 kJ per mol
Tellurium atom bond with Sulphur atomTe – S339 kJ per mol
Tellurium atom bond with Selenium atomTe – Se268 kJ per mol

Bond Dissociation Energies of Bonds Formed by Thallium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Thallium atom bond with Thallium atomTl – Tl63 kJ per mol
Thallium atom bond with Bromine atomTl – Br333.9 kJ per mol
Thallium atom bond with Chlorine atomTl – Cl372.8 kJ per mol
Thallium atom bond with Fluorine atomTl – F445 kJ per mol
Thallium atom bond with Hydrogen atomTl – H188 kJ per mol
Thallium atom bond with Iodine atomTl – I272 kJ per mol

Bond Dissociation Energies of Bonds Formed by Thorium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Thorium atom bond with Thorium atomTh – Th289 kJ per mol
Thorium atom bond with Carbon atomTh – C484 kJ per mol
Thorium atom bond with Nitrogen atomTh – N577.4 kJ per mol
Thorium atom bond with Oxygen atomTh – O854 kJ per mol
Thorium atom bond with Phosphorus atomTh – P377 kJ per mol

Bond Dissociation Energies of Bonds Formed by Thulium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Thulium atom bond with Fluorine atomTm – F569 kJ per mol
Thulium atom bond with Oxygen atomTm – O557 kJ per mol
Thulium atom bond with Sulphur atomTm – S368 kJ per mol
Thulium atom bond with Selenium atomTm – Se276 kJ per mol
Thulium atom bond with Tellurium atomTm – Te276 kJ per mol

Bond Dissociation Energies of Bonds Formed by Tin Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Tin atom bond with Tin atomSn – Sn195 kJ per mol
Tin atom bond with Bromine atomSn – Br339 kJ per mol
Tin atom bond with Chlorine atomSn – Cl406 kJ per mol
Tin atom bond with Fluorine atomSn – F467 kJ per mol
Tin atom bond with Hydrogen atomSn – H267 kJ per mol
Tin atom bond with Iodine atomSn – I234 kJ per mol
Tin atom bond with Oxygen atomSn – O548 kJ per mol
Tin atom bond with Sulphur atomSn – S464 kJ per mol
Tin atom bond with Selenium atomSn – Se401.3 kJ per mol
Tin atom bond with Tellurium atomSn – Te319.2 kJ per mol

Bond Dissociation Energies of Bonds Formed by Titanium Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Titanium atom bond with Titanium atomTi – Ti141 kJ per mol
Titanium atom bond with Bromine atomTi – Br439 kJ per mol
Titanium atom bond with Carbon atomTi – C435 kJ per mol
Titanium atom bond with Chlorine atomTi – Cl494 kJ per mol
Titanium atom bond with Fluorine atomTi – F569 kJ per mol
Titanium atom bond with Hydrogen atomTi – H159 kJ per mol
Titanium atom bond with Iodine atomTi – I310 kJ per mol
Titanium atom bond with Nitrogen atomTi – N464 kJ per mol
Titanium atom bond with Oxygen atomTi – O662 kJ per mol
Titanium atom bond with Sulphur atomTi – S426 kJ per mol
Titanium atom bond with Selenium atomTi – Se381 kJ per mol
Titanium atom bond with Tellurium atomTi – Te289 kJ per mol

Bond Dissociation Energies of Bonds Formed by Zinc Atoms

Name of BondSymbolic Representation of BondBond Dissociation Energy
Zinc atom bond with Zinc atomZn – Zn29 kJ per mol
Zinc atom bond with Bromine atomZn – Br142 kJ per mol
Zinc atom bond with Chlorine atomZn – Cl229 kJ per mol
Zinc atom bond with Fluorine atomZn – F368 kJ per mol
Zinc atom bond with Hydrogen atomZn – H85.8 kJ per mol
Zinc atom bond with Iodine atomZn – I138 kJ per mol
Zinc atom bond with Oxygen atomZn – O284.1 kJ per mol
Zinc atom bond with Sulphur atomZn – S205 kJ per mol
Zinc atom bond with Selenium atomZn – Se136 kJ per mol
Zinc atom bond with Tellurium atomZn – Te205 kJ per mol

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