The catalytic deprotection of a range of functionalised THP and THF ethers can be efficiently performed, under neutral conditions, using as little as 3 mol% CAN in MeCN/borate buffer (pH = 8). (C) 1999 Elsevier Science Ltd. All rights reserved
The most common method for the deprotection ofTBDMS ethers utilizes stoichiometric amounts of tetrab...
The most common method for the deprotection ofTBDMS ethers utilizes stoichiometric amounts of tetrab...
The most common method for the deprotection ofTBDMS ethers utilizes stoichiometric amounts of tetrab...
The chemoselective, catalytic deprotection of a variety of ketals, THP, and selected silyl ethers ca...
The development of a novel, chemoselective, and catalytic deprotection methodology that proceeds und...
The development of a novel, chemoselective, and catalytic deprotection methodology that proceeds und...
The development of a novel, chemoselective, and catalytic deprotection methodology that proceeds und...
Cerium(IV) ammonium nitrate (CAN) is a powerful, though mild, reagent for the efficient and selectiv...
A simple and mild procedure for the efficient deprotection of cyclic acetals and ketals, using ceriu...
Smooth and quantitative deprotection of a wide range of acetals and ketals [Eq. (a); R, R(1)=alkyl, ...
A mild method for the deprotection of THP ethers catalyzed by iron(III) tosylate (2.0 mol %) in CH3O...
A mild method for the deprotection of THP ethers catalyzed by iron(III) tosylate (2.0 mol %) in CH3O...
A mild method for the deprotection of THP ethers catalyzed by iron(III) tosylate (2.0 mol %) in CH3O...
A mild method for the deprotection of THP ethers catalyzed by iron(III) tosylate (2.0 mol %) in CH3O...
A mild method for the deprotection of THP ethers catalyzed by iron(III) tosylate (2.0 mol %) in CH3O...
The most common method for the deprotection ofTBDMS ethers utilizes stoichiometric amounts of tetrab...
The most common method for the deprotection ofTBDMS ethers utilizes stoichiometric amounts of tetrab...
The most common method for the deprotection ofTBDMS ethers utilizes stoichiometric amounts of tetrab...
The chemoselective, catalytic deprotection of a variety of ketals, THP, and selected silyl ethers ca...
The development of a novel, chemoselective, and catalytic deprotection methodology that proceeds und...
The development of a novel, chemoselective, and catalytic deprotection methodology that proceeds und...
The development of a novel, chemoselective, and catalytic deprotection methodology that proceeds und...
Cerium(IV) ammonium nitrate (CAN) is a powerful, though mild, reagent for the efficient and selectiv...
A simple and mild procedure for the efficient deprotection of cyclic acetals and ketals, using ceriu...
Smooth and quantitative deprotection of a wide range of acetals and ketals [Eq. (a); R, R(1)=alkyl, ...
A mild method for the deprotection of THP ethers catalyzed by iron(III) tosylate (2.0 mol %) in CH3O...
A mild method for the deprotection of THP ethers catalyzed by iron(III) tosylate (2.0 mol %) in CH3O...
A mild method for the deprotection of THP ethers catalyzed by iron(III) tosylate (2.0 mol %) in CH3O...
A mild method for the deprotection of THP ethers catalyzed by iron(III) tosylate (2.0 mol %) in CH3O...
A mild method for the deprotection of THP ethers catalyzed by iron(III) tosylate (2.0 mol %) in CH3O...
The most common method for the deprotection ofTBDMS ethers utilizes stoichiometric amounts of tetrab...
The most common method for the deprotection ofTBDMS ethers utilizes stoichiometric amounts of tetrab...
The most common method for the deprotection ofTBDMS ethers utilizes stoichiometric amounts of tetrab...
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