Thermal Stability, from Hydrocarbon alkyl to New Bonding Modes'

Reminds of mitochondriaDNA consistences of fusion {\&} fission mechanism, more too fast to concludes whereas bacteria also comprise mtDNA {\&} firstly described in David J. Sukovich, \textit{et.al}:\textbf{''Widespread Head-to-head hydrocarbon Biosynthesis in bacteria {\&} role of OleA'', }\underline {Appl {\&} Environmental Microbiology, }2010. But more focused of specification `` \textit{Kenapa tidak dicarikan matematikanya..?'' }from since 1979 HE. Mr. Prof. B. Suprapto Brotosiswojo of 1947 World War II conditions applies: \textit{``Organik gua..''}$+$ \textit{``Subag..''.} but now, the realms of field came to we are of thermal stability --Wing Tsang: \textbf{``Thermal Stability of Hydrocarbon radicals'' }whereafter of \textit{``Antimony..'' }prediction from Mr. X. Zotos, the moiety of certain alkyls if not TIPSb/triisopropylAntimony follows 1964 W.A. Little prediction of organic superconductors resembles Eric Rivard: \textbf{``using ligand design {\&} Donor-acceptor stabilization to access new Bonding Modes {\&}functional Nanodimensional Materials'', }\underline {Dalton 2016 Sponsor, }RSOC of Lyapunov stability ever answered.