Chemo- and regioselective bromination of aromatic compounds was carried out by employing LiBr/ceric ammonium nitrate (CAN) reagent system (as a source of Br+ ion).[5]
Lithium bromide as a new catalyst for carbon-carbon bond formation in the solid state.
Prajapati D, et al.
Journal of the Chemical Society. Perkin Transactions 1, 9, 959-960 (1996)
Lithium bromide-catalyzed highly chemoselective and efficient dithioacetalization of α,β-unsaturated and aromatic aldehydes under solvent-free conditions.
Firouzabadi H, et al.
Synthesis, 58-60 (1999)
An efficient chemo and regioselective oxidative nuclear bromination of activated aromatic compounds using lithium bromide and ceric ammonium nitrate.
Roy SC, et al.
Tetrahedron Letters, 42(39), 6941-6942 (2001)
Lithium Bromide, an Inexpensive and Efficient Catalyst for Opening of Epoxide Rings by Amines at Room Temperature under Solvent-Free Condition.
Chakraborti AK, et al.
European Journal of Organic Chemistry, 2004(17), 3597-3600 (2004)
Vascular tissue engineering is aimed at developing regenerative vascular grafts to restore tissue function by bypassing or replacing defective arterial segments with tubular biodegradable scaffolds. Scaffolds are often combined with stem or progenitor cells to prevent acute thrombosis and initiate
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