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W2554773678 endingPage "39" @default.
W2554773678 startingPage "32" @default.
W2554773678 abstract "The use of tethers allows to overcome reactivity and selectivity issues often encountered with intermolecular reactions. Although tethers have been successfully applied for decades, their installation and removal usually requires additional steps. This minireview highlights the recent development of tethers that can be installed in situ on (homo)-allyl amines or alcohols for Tsuji-Trost allylation or double bond functionalization. In particular, the use of (hemi-)acetal tethers for highly regioselective and enantioselective Tsuji-Trost allylation was recently reported. Hydroamination of olefins starting from allylic amines could be achieved via a retro Cope-elimination using catalytic amount of an aldehyde for tether formation. Finally, bifunctionalizations of olefins were developed using either carbon dioxide or carbonyls/imines as tether precursors. These recent breakthroughs greatly enhanced the efficiency of the tethering approach for olefin functionalization, and will make it even more attractive for synthetic chemists in the future." @default.
W2554773678 created "2016-11-30" @default.
W2554773678 creator A5008165586 @default.
W2554773678 creator A5050736909 @default.
W2554773678 date "2017-01-01" @default.
W2554773678 modified "2023-10-04" @default.
W2554773678 title "In situ tether formation from amines and alcohols enabling highly selective Tsuji–Trost allylation and olefin functionalization" @default.
W2554773678 cites W1965758422 @default.
W2554773678 cites W1968349194 @default.
W2554773678 cites W1977567573 @default.
W2554773678 cites W1981687211 @default.
W2554773678 cites W1982400481 @default.
W2554773678 cites W1983858152 @default.
W2554773678 cites W1989036898 @default.
W2554773678 cites W1989394273 @default.
W2554773678 cites W1989613257 @default.
W2554773678 cites W2002768398 @default.
W2554773678 cites W2005701010 @default.
W2554773678 cites W2006337247 @default.
W2554773678 cites W2010358271 @default.
W2554773678 cites W2011995559 @default.
W2554773678 cites W2012879602 @default.
W2554773678 cites W2017670338 @default.
W2554773678 cites W2021502594 @default.
W2554773678 cites W2021735675 @default.
W2554773678 cites W2022708853 @default.
W2554773678 cites W2025536018 @default.
W2554773678 cites W2035968398 @default.
W2554773678 cites W2040282834 @default.
W2554773678 cites W2044485376 @default.
W2554773678 cites W2047876739 @default.
W2554773678 cites W2048990208 @default.
W2554773678 cites W2052791287 @default.
W2554773678 cites W2066796729 @default.
W2554773678 cites W2072083943 @default.
W2554773678 cites W2082524200 @default.
W2554773678 cites W2082838280 @default.
W2554773678 cites W2083135594 @default.
W2554773678 cites W2087426176 @default.
W2554773678 cites W2095374133 @default.
W2554773678 cites W2097107392 @default.
W2554773678 cites W2098486174 @default.
W2554773678 cites W2099806170 @default.
W2554773678 cites W2099943834 @default.
W2554773678 cites W2102769986 @default.
W2554773678 cites W2109545389 @default.
W2554773678 cites W2113227167 @default.
W2554773678 cites W2126020838 @default.
W2554773678 cites W2130469832 @default.
W2554773678 cites W2131164740 @default.
W2554773678 cites W2132030714 @default.
W2554773678 cites W2145237581 @default.
W2554773678 cites W2145789026 @default.
W2554773678 cites W2145791959 @default.
W2554773678 cites W2148764311 @default.
W2554773678 cites W2156140115 @default.
W2554773678 cites W2159650400 @default.
W2554773678 cites W2162047917 @default.
W2554773678 cites W2170204475 @default.
W2554773678 cites W2231098395 @default.
W2554773678 cites W2280197809 @default.
W2554773678 cites W2283686189 @default.
W2554773678 cites W2307237168 @default.
W2554773678 cites W2314082820 @default.
W2554773678 cites W2315521326 @default.
W2554773678 cites W2317386011 @default.
W2554773678 cites W2325865090 @default.
W2554773678 cites W2333271045 @default.
W2554773678 cites W2334002134 @default.
W2554773678 cites W2335752432 @default.
W2554773678 cites W2344504762 @default.
W2554773678 cites W2403543048 @default.
W2554773678 cites W2417377271 @default.
W2554773678 cites W2474801085 @default.
W2554773678 cites W2520765545 @default.
W2554773678 cites W2949492912 @default.
W2554773678 cites W2949532448 @default.
W2554773678 cites W2950305711 @default.
W2554773678 cites W2950535219 @default.
W2554773678 cites W2950674179 @default.
W2554773678 cites W2950775274 @default.
W2554773678 cites W2950953841 @default.
W2554773678 cites W2951513894 @default.
W2554773678 cites W2953086811 @default.
W2554773678 cites W2953302516 @default.
W2554773678 cites W2953326011 @default.
W2554773678 cites W4239339299 @default.
W2554773678 cites W4251547442 @default.
W2554773678 doi "https://doi.org/10.1039/c6sc04366f" @default.
W2554773678 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5304619" @default.
W2554773678 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28451147" @default.
W2554773678 hasPublicationYear "2017" @default.
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