Convergent synthesis

(Redirected from Linear synthesis)

In chemistry a convergent synthesis is a strategy that aims to improve the efficiency of multistep synthesis, most often in organic synthesis. In this type of synthesis several individual pieces of a complex molecule are synthesized in stage one, and then in stage two these pieces are combined to form the final product.[1] In linear synthesis the overall yield quickly drops with each reaction step:

A → B → C → D

Suppose the yield is 50% for each reaction; the overall yield of D is only 12.5% from A.

In a convergent synthesis

A → B (50%)
C → D (50%)
B + D → E (25%)

the overall yield of E (25%) looks much better. Convergent synthesis is applied in the synthesis of complex molecules and involves fragment coupling and independent synthesis. This technique is more useful if the compound is large and symmetric, where at least two aspects of the molecule can be formed separately and still come together.

Examples:

Final step in total synthesis of Biyouyanagin A with acetonaphthone photosensitizer

See also

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References

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  1. ^ Organic Synthesis, 3rd Ed. 2010 Michael Smith
  2. ^ Convergent Synthesis of Internally Branched PAMAM Dendrimers Michael Pittelkow, Jrn B. Christensen Org. Lett., 7 (7), 1295–1298, 2005
  3. ^ Total Synthesis and Revised Structure of Biyouyanagin A K. C. Nicolaou, David Sarlah, and David M. Shaw Angew. Chem. Int. Ed. 2007, 46, 4708–4711 doi:10.1002/anie.200701552