代表性论文、论著: |
[1] 黄文华,潘光明。改良法合成两个含硅芳香二酸酐。化学试剂 1998, 20, 54-55.
[2] Wen-Hua Huang, Yao-Zeng Huang and Li-Xin Dai. Tellurium-zinc exchange between organotelluronium salts and diethylzinc-reaction of the in situ generated mixed diorganozinc with carbonyl compounds.Tetrahedron Lett. 1998, 39, 6953-6956.
[3] David Crich and Wenhua Huang. Dynamics of alkene radical cation/phosphate anion pair formation from nucleotide C4' radicals. The DNA/RNA paradox revisited. J. Am. Chem. Soc. 2001, 123, 9239-9245.
[4] Wenhua Huang and James P. Ferris. Synthesis of 30-40 mers of RNAs from unblocked monomers. an approach to the RNA world. Chem. Comm. 2003, 1458-1459.
[5] James P. Ferris, Prakash C. Joshi, Kong-Jiang Wang, Shin Miyakawa and Wenhua Huang. Catalysis in prebiotic chemistry: application to RNA synthesis. Advances in Space Research 2004, 33, 100-105.
[6] Michael F. Aldersley, James P. Ferris, Wenhua Huang, Prakash C. Joshi & Dmitri Zagorevski. Oligonucleotides from montmorillonite catalysis; Analysis and modeling. Origins of Life and Evolution of the Biosphere 2006, 36, 289-291.
[7] Wenhua Huang and James P. Ferris. One-step, regioselective synthesis of up to 50-mers of RNA oligomers by montmorillonite catalysis. J. Am. Chem. Soc. 2006, 128, 8914-8919.
[8] *Wenhua Huang and Li’e Zhang. A facile synthesis of N-formylbenzamides by oxidative decarboxylation of N-aroylglycine induced by Ag+/S2O82-. J. Chem. Res. (S) 2006, 738-739.
[9] *Wenhua Huang, Jingyi Li and Lihua Ou. A facile synthesis of isoquinolines, β-carbolines, and 3-deazapurines. Syn. Commun. 2007, 37, 2137-2143.
[10] *Wenhua Huang, Meiling Wang and Hong Yue. Conversion of N-acyl amino acids to imides via oxidative decarboxylation induced by Ag+/Cu2+/S2O82- in water. Synthesis 2008, 1342-1344.
[11] Hong Yue, Hongmei Zhang, Meiling Wang and Wenhua Huang*. Novel route to N-acyl-N’-formyl aminal. Syn. Commun. 2009, 39, 1-8.
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