[1] | Surface organometallic chemistry: Formation of the grafted anionic clusters [HFeOs3(CO)13]-, [HFeRu3(CO)13]-and [FeCo3(CO)12]-on a hydroxylated magnesia. A. Choplin, L. Huang, J-M. Basset, * R. Mathieu, U. Siriwardane and S. G. Shore. Organometallics, 1986, 5, 1547. |
[2] | Formation of Fe-Os, Fe-Ru and Fe-Co bimetallic particles by thermal decomposition of heteropolynuclear clusters supported on partially dehydroxylated magnesia. A. Choplin, L. Huang, A. Theolier, P. Gallezot and J. M. Basset.* J. Am. Chem. Soc., 1986, 108, 4224. |
[3] | Surface organometallic chemistry: Evidence of disproportionation of Co2(CO)8 to Co2+[Co(CO)4]-2 at the surface of partially hydroxylated magnesia. N. Homs, A. Cholin, P. Ramirez de la Piscina, L. Huang, E. Garbowski, R. Sanchez-Delgado, A. Theolier and J. M. Basset.* Inorg. Chem., 1988, 27, 4030. |
[4] | Surface organometallic chemistry: Formation of the grafted dianionic cluster [Rh6(CO)15]2-upon adsorption of Rh6(CO)16 on a partially hydroxylated magnesia. P. Dufour, L. Huang, A. Choplin, R. Sanchez-Delgado, A. Theolier and J. M. Basset.* J. Organomet. Chem., 1988, 354, 243. |
[5] | A surface organometallic chemistry approach of the process of formation of bimetallic particles from bimetallic supported molecular clusters. L. Huang, A. Choplin, J. M. Basset, * U. Siriwadane, S. G. Shore and R. Mathieu. J. Mol. Catal., 1989, 56, 1. |
[6] | Dispersion effects of cluster-derived Rh on SiO2 on ethylene hydroformylation. L. Huang, * W. Guo, A. Liu and Y. Xu. Chin. Chem. Lett., 1992, 3, 401. |
[7] | Electron-donating behavior of Co and Fe in promoted Rh catalysts. L. Huang, * A. Liu, W. Guo and Y. Xu. Chin. Chem. Lett., 1993, 7, 639. |
[8] | CO chemisorption and CO-TPR in H2 stream with Rh/NaY and Rh-Zn/NaY zeolite catalysts. Y. Xu, * A. Liu, D. Li and L. Huang. "New aspect of Spillover Effect in Catalysis for Development of Highly Active Catalysts", ed. T.Inui, K.Fujimoto et al., Stud. Surf. Sci. Catal., 1993, 77, 253. |
[9] | An effective organo-bimetallic Rh-Co cluster catalyst for hydroformylation. L. Huang, * Y. Xu and A. Liu. Chin. Chem. Lett., 1994, 5, 861. |
[10] | Ethylene hydroformylation over Rh/L and Rh-Zn/L zeolite catalysts. Y. Dong, Y. Xu, * A. Liu, D. Li and L. Huang. Chin. J. Catal., 1994, 15, 207. |
[11] | Structure characterization of Ru3(CO)12 in NaY zeolite by infrared spectroscopy. A. Liu, * L. Huang, Y. Xu, T. Shido and M. Ichikawa. Chin. Chem. Lett., 1994, 5, 715. |
[12] | Enhancement of olefin hydroformylation related to supported bimetallic Rh-Co clusters. L. Huang, * Y. Xu, G. Pian, A. Liu and W. Zhang. Catal. Lett., 1994, 23, 87. |
[13] | Study on catalysis by carbonyl cluster-derived SiO2-supported rhodium for olefin hydroformylation. L. Huang, * Y. Xu, W. Guo, A. Liu, D. Li and X. Guo. Catal. Lett., 1995, 32, 61. |
[14] | Surface-promoted organometallic dissociation of RhCo3(CO)12 to monometallic rhodium and cobalt clusters. L. Huang.* Bull. Soc. Chim. Belg., 1995, 104, 637. |
[15] | Structure characterization of Ru3(CO)12 entrapped within NaY zeolite. A. Liu, * L. Huang, Y. Xu, T. Shido and M. Ichikawa. Chin. J. Catal., 1995, 16, 26. |
[16] | Synthesis and characterization of [Ru6(CO)18]2-in NaY zeolite cages and its catalytic behavior for n-butane hydrogenolysis. A. Liu, * L. Huang, Y. Xu, T. Shido and M. Ichikawa. Chin. Chem. Lett., 1995, 6, 163. |
[17] | IR studies on the preservation of RhCo3 clusters on the surface of SiO2. L. Huang.* J. Mol. Catal. A., 1996, 112, 69. |
[18] | IR studies on CO insertion reaction with SiO2-supported rhodium active site. L. Huang, * A. Liu and Y. Xu. Bull. Soc. Chim. Fr., 1996, 133, 471. |
[19] | Surface behaviors of monometallic and cobalt-containing rhodium catalysts on SiO2 in relation to their catalytic properties for hydroformylation. L. Huang.* Bull. Soc. Chim. Fr., 1996, 133, 359. |
[20] | Probing the bimetallic RhCo3 cluster preserved on SiO2 after thermal treatment under O2 by hydroformylation. L. Huang* and Y. Xu. Catal. Lett., 1996, 40, 203. |
[21] | IR studies of surface chemistry of rhodium in hydroformylation catalysts. L. Huang* and Y. Xu. J. Nat. Gas Chem., 1996, 5, 237. |
[22] | Promoting effect of doped cobalt on catalysis of SiO2-supported rhodium for propylene hydroformylation. L. Huang* and Y. Xu. React. Kinet. Catal. Lett., 1997, 61, 397. |
[23] | Surface chemistry and catalysis of SiO2-supported RhCo3(CO)12. L. Huang, * A. Liu and Y. Xu. J. Mol. Catal. A., 1997, 124, 57. |
[24] | Formation of bimetallic RhCo3 clusters from monometallic clusters on SiO2 as probed by hydroformylation. L. Huang.* J. Mol. Catal. A., 1997, 125, 47. |
[25] | Studies on the formation of bimetallic Rh-Co clusters from monometallic rhodium and cobalt clusters. L. Huang* and Y. Xu. J. Nat. Gas Chem., 1997, 6, 188. |
[26] | IR studies of the thermal decomposition of [Rh6(CO)16+Co4(CO)12]/SiO2: Evidence for the formation of RhCo3(CO)12/SiO2. L. Huang* and Y. Xu. J. Nat. Gas Chem., 1997, 6, 198. |
[27] | SiO2-supported bimetallic cluster catalysts derived from [Rh(CO)2Cl]2 and cobalt carbonyls. L. Huang* and Y. Xu. Catal. Lett., 1998, 53, 177. |
[28] | A highly active bimetallic supported Rh-Co hydroformylation catalyst prepared from RhCl3 and Co2(CO)8. L. Huang* and Y. Xu. Catal. Lett., 1998, 55, 227. |
[29] | Studies on the preparation of bimetallic RhCo3(CO)12/SiO2 catalysts by infrared spectroscopy. L. Huang* and Y. Xu. Prog. Nat. Sci., 1999, 9, 662. |
[30] | On the preparation of bimetallic Rh-Co hydroformylation catalysts from [Rh(CO)2Cl]2 and cobalt carbonyls on the surface of SiO2. L. Huang* and Y. Xu. Bull. Chem. Soc. Jpn., 1999, 72, 199. |
[31] | Highly selective epoxidation of 1-pentene with H2O2 over TS-1. L. Huang, * C. W. Lee, Y. K. Park and S. E. Park. Bull. Kor. Chem. Soc., 1999, 20, 747. |
[32] | Generation of H2O2 from H2 and O2 over zeolite beta containing Pd and heterogeneous organic compounds. S. E. Park, * L. Huang, C. W. Lee and J. S. Chang. Catal. Today, 2000, 61, 117. |
[33] | Synergy of ruthenium and cobalt in SiO2-supported catalysts on ethylene hydroformylation. L. Huang* and Y. Xu. Appl. Catal. A., 2001, 205, 183. |
[34] | Studies on the interaction between ruthenium and cobalt in supported catalysts in favor of hydroformylation. L. Huang* and Y. Xu. Catal. Lett., 2000, 69, 145. |
[35] | IR spectroscopic study on surface-mediated reductive carbonylation of hydrated SiO2-supported Ru(NO3)3. L. Huang* and Y. Xu. Catal. Lett., 2001, 71, 27. Erratum: Catal. Lett., 2001, 77, 171. |
[36] | Surface-mediated reductive carbonylation of SiO2-supported RuCl3 and Ru(NO)(NO3)3 studied by IR spectroscopy. L. Huang* and Y. Xu. J. Mol. Catal. A., 2001, 176, 267. |
[37] | Rh4(CO)12-derived functionalized MCM-41-tethered rhodium complexes: Preparation, characterization and catalysis for cyclohexene hydroformylation. L. Huang, * J. C. Wu and S. Kawi. J. Mol. Catal. A., 2003, 206, 371. |
[38] | An active and stable RhH(CO)(PPh3)3-derived SiO2-tethered catalyst via a thiol ligand for cyclohexene hydroformylation. L.Huang* and S.Kawi. Catal. Lett., 2003, 90, 165. |
[39] | [Rh(CO)2Cl]2-derived MCM-41-tethered rhodium complex catalysts via phosphine, amine and thiol ligands for cyclohexene hydroformylation. L.Huang* and S.Kawi. Bull. Soc. Chem. Jpn., 2004, 77, 295. |
[40] | Aminated MCM-41-tethered Wilkinson's complex: Active immobilized catalyst precursor for cyclohexene hydroformylation. L. Huang, * J. C. Wu and S. Kawi. React. Kinet. Catal. Lett., 2004, 82, 65. |
[41] | Effects of supported donor ligands on the activity and stability of tethered rhodium complex catalysts for hydroformylation. L. Huang* and S. Kawi. J. Mol. Catal. A., 2004, 211, 23. |
[42] | An active and stable Wilkinson's complex-derived SiO2-tethered catalyst via an amine ligand for cyclohexene hydroformylation. L. Huang* and S. Kawi. Catal. Lett., 2004, 92, 57. |
[43] | Catalytic studies of aminated MCM-41-tethered rhodium complexes for Hydroformylation of 1-octene and styrene. L. Huang, * Y. He and S. Kawi. J. Mol. Catal. A., 2004, 213, 241. Erratum: J. Mol. Catal. A., 2004, 219, 395. |
[44] | Catalytic studies of aminated MCM-41-tethered rhodium complexes for 1-hexene hydroformylation. L. Huang, * Y. He and S. Kawi. Appl. Catal. A., 2004, 265, 247. |
[45] | Comparative studies on the properties of new and conventional perovskite-type LaCoO3. L. Huang, * M. Bassir, E. Bousselham and S. Kaliaguine. Bull. Chem. Soc. Jpn., 2005, 78, 1450. |
[46] | Reducibility of Co3+ in perovskite-type LaCoO3 and promotion of copper on the reduction of Co3+ in perovskite-type oxides. L. Huang, * M. Bassir and S. Kaliaguine. Appl. Surf. Sci., 2005, 243, 360. |
[47] | Extraction of cationic surfactant templates from mesoporous materials by CH3OH-modified CO2 supercritical fluid. L. Huang, * C. Poh, S. C. Ng, K. Hidajat and S. Kawi. Talanta, 2005, 66, 943. |
[48] | Preparation of supported mesoporous thin films concerning template removal by supercritical fluid extraction. L. Huang, * C. Poh, S. C. Ng, K. Hidajat and S. Kawi. Langmuir, 2005, 21, 1171. |
[49] | Preparation of M41S family mesoporous silica thin films on porous oxides. L. Huang, * S. Kawi, K. Hidajat and S. C. Ng. Micropor. Mesopor. Mater., 2005, 82, 87. |
[50] | High quality mesoporous materials prepared by supercritical fluid extraction: effect of curing treatment on their structural stability. Z. Huang, L. Huang, S. C. Shen, C. C. Poh, K. Hidajat, S. Kawi* and S. C. Ng. Micropor. Mesopor. Mater., 2005, 80, 157. |
[51] | Formation of mesoporous silica thin films on oxide substrates by casting. L. Huang, * S. Kawi, K. Hidajat and S. C. Ng. Micropor. Mesopor. Mater., 2006, 88, 254. |
[52] | Preparation of rodlike t-ZrO2 nanoparticles by two-step calcination of 1, 12-diaminododecane-zirconia mesostructured composites. F. Chen, * K. Zhu, L. Huang, Y. Chen and F. Kooli. Mater. Res. Bull., 2006, 41, 10. |
[53] | One-step solid-state metathesis reaction for synthesis of nanocrystalline tetragonal zirconia. F. Chen, * L. Huang, Z. Zhong, G. J. Gan, S. M. Kwan and F. Kooli. Mater. Chem. Phys., 2006, 97, 162. |
[54] | A novel SiO2-supported Pd metal catalyst for the Heck reaction. L. Huang, * Z. Wang, T. P. Ang, J. Tan and P. K. Wong. Catal. Lett., 2006, 112, 219. |
[55] | Characters of perovskite-type LaCoO3 prepared by reactive grinding. L. Huang, * M. Bassir and S. Kaliaguine. Mater. Chem. Phys., 2007, 101, 259. |
[56] | The role of acidic sites and the catalytic reaction pathways on the Rh/ZrO2 catalysts for ethanol steam reforming. Z. Zhong, * H. Ang, C. Chong, L. Chen, L. Huang and J. Lin. Phys. Chem. Chem. Phys., 2009, 11, 872. |
[57] | Studies on the nature of catalysis: suppression of the catalytic activity of leached Pd by supported Pd particles during the Heck reaction. L. Huang, * P. K. Wong, J. Tan, T. P. Ang and Z. Wang. J. Phys. Chem. C, 2009, 113, 10120. |
[58] | Effect of Pd0/SiO2 on the catalysis of leached soluble Pd during the Heck reaction L. Huang, * J. Tan, P. K. Wong. Chem. Today, 2010, 28, 29. |
[59] | Carbon monoxide-free hydrogen production via low-temperature steam reforming of ethanol over iron-promoted Rh catalyst. L. Chen, * C. Choong, Z. Zhong, L. Huang, T. P. Ang, L. Hong, J. Lin. J. Catal., 2010, 276, 197. |
[60] | Recent progress on the studies of the true catalyst in the Heck reaction with supported Pd particles. L. Huang* and P. K. Wong. Curr. Org. Synth., 2010, 7, 599. |
[61] | Conversion of cellulose to hexitols catalyzed by ionic liquid-stabilized ruthenium nanoparticles and a reversible binding agent. Y. H. Zhu, * N. K. Zhen, L. P. Stubbs, L. Huang, S. C. Shen, E. V. Anslyn, J. A. Maguire. ChemSusChem, 2010, 3, 67. |
[62] | On the roles of solid-bound ligand scavengers in the removal of Pd residues and in the distinction between homogeneous and heterogeneous catalysis. L. Huang, * T. P. Ang, Z. Wang, J. Tan, J. Chen and P. K. Wong. Inorg. Chem., 2011, 50, 2094. |
[63] | Effect of calcium addition on catalytic ethanol steam reforming of Ni/Al2O3: I. Catalytic stability, electronic properties and coking mechanism. C. K. Choong, Z. Zhong, L. Huang, Z. Wang, T. P. Ang, A. Borgna, J. Lin, L. Hong and L. Chen.* Appl. Catal. A., in press. |
[64] | On the true catalyst for the Heck reaction with supported metal particles. L. Huang and P. K. Wong. In Palladium-catalyzedc cross-coupling reactions-practical aspects and future developments, A. Molnar Ed. Wiley-VCH, to be published in 2012. |