Dehydrogenation of Alkanes & Alkenes

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Hydrogenation converts alkynes to alkenes and alkenes to alkanes, but the reverse process for preparing alkenes from alkanes and alkynes from alkenes is achievable through dehydrogenation. A specific method involves using chromium (III) oxide as a catalyst at 500 °C to convert n-pentane and isopentane into their corresponding pentenes. This reaction is applicable to all alkanes, and other metal (III) oxides, like aluminum and iron (III) oxide, can also facilitate similar transformations. Additionally, elimination reactions can be utilized to derive unsaturated hydrocarbons from haloalkanes, with resources provided for further exploration of these reactions and their conditions.
Syed Ammar
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By hydrogenation, alkynes form alkenes and alkenes form alkanes but I need the reverse process i.e preparation of alkenes from alkanes and alkynes from alkenes...
I have found a reaction for dehydrogenation of alkenes at Wikipedia but I am not sure if it works for all alkenes: QUOTE
"n-pentane and isopentane can be converted to pentene and isopentene using chromium (III) oxide as a catalyst at 500 °C."

Ref:http://en.wikipedia.org/wiki/Dehydrogenation
 
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Yes Chromium oxide reaction is valid for all alkanes. In fact, many metal (III) oxides are capable of producing such reactions on specific compounds. Examples are Aluminum and Iron (III) oxide.

If it isn't compulsory to use a one step process, you can use elimination reaction to obtain unsaturated hydrocarbons from haloalkanes.
 
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Plz provide the reaction with complete conditions...
 

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