Nanoparticle-supported catalysts and catalytic reactions–a mini-review

Journal of Experimental Nanoscience

Volumn 1, Issue 4, 2006, Pages 457-475

  Fan, Jinda ^a   Gao, Yong ^a  

^a SOUTHERN ILLINOIS UNIVERSITY   (United States)

Author keywords

Catalysis; Immobilization; Nanoparticle; Recycling; Support

Indexed keywords

EID: 85014730036     PISSN: 17458080     EISSN: 17458099     Source Type: Journal    
DOI: 10.1080/17458080601067708     Document Type: Article

References (51)

1. Cole-Hamilton, DJ. 2003. Homogeneous catalysis -- new approaches to catalyst separation, recovery and recycling. Science, 299:1702
2. Thayer, A. 2005. Removing impurities. Chem. & Eng. News, 83 (36):55
3. McNamara, CA, Dixon, MJ, and Bradley, M. 2002. Recoverable catalysts and reagents using recyclable polystyrene-based supports. Chem. Rev., 102:3275
4. Baxendale, IR, Storer, RI, and Ley, SV. 2003. “ Supported reagents and scavengers in multi-step organic synthesis ”. In Polymeric Materials in Organic Synthesis and Catalysis, Edited by:Buchmeiser, M.R., p. 53Berlin:VCH Berlin.
5. Gambs, C, Dickerson, TJ, Mahajan, S, Pasternack, LB, and Janda, KD. 2003. High-resolution diffusion-ordered spectroscopy to probe the microenvironment of JandaJel and Merrifield resins. J. Org. Chem., 68:3673
6. Luo, Z, Zhang, Q, Oderaotoshi, Y, and Curran, DP. 2001. Fluorous mixture synthesis:a fluorous-tagging strategy for the synthesis and separation of mixtures of organic compounds. Science, 291:1766
7. Dinh, LV, and Gladysz, JA. 2004. Convenient syntheses of “heavy fluorous” cyclopentadienes and cyclopentadienyl complexes with three to five ponytails. Chem. Comm., 8:998
8. Barrett, AGM, Hopkins, BT, and Köbberling, J. 2002. ROMPgel reagents in parallel synthesis. Chem. Rev., 102:3301
9. Harned, AM, Zhang, M, Vedantham, P, Mukherjee, S, Herpel, RH, Flynn, DL, and Hanson, PR. 2005. ROM polymerization in facilitated synthesis. Aldrichimica Acta, 38:3
10. Bergbreiter, DE. 2002. Using soluble polymers to recover catalysts and ligands. Chem. Rev., 102:3345
11. van Heerbeek, R, Kamer, PCJ, van Leeuwen, PWNM, and Reek, JNH. 2002. Dendrimers as support for recoverable catalysts and reagents. Chem. Rev., 102:3717
12. Vankelecom, IFJ. 2002. Polymeric membranes in catalytic reactors. Chem. Rev., 102:3779
13. McCarty, GS, and Weiss, PS. 1999. Scanning probe studies of single nanostructures. Chem. Rev., 99:1983
14. Vaino, AR, and Janda, KD. 2000. Solid-phase organic synthesis:a critical understanding of the resin. J. Comb. Chem., 2:579
15. Fernandez-Garcia, M, Martinez-Arias, A, Hanson, JC, and Rodriguez, JA. 2004. Nanostructured oxides in chemistry:characterization and properties. Chem. Rev., 104:4063
16. Schulz, J, Roucoux, A, and Patin, H. 2002. Reduced transition metal colloids:a novel family of reusable catalysts?. Chem. Rev., 102:3757
17. Burda, C, Chen, X, Narayanan, R, and El-Sayed, MA. 2005. Chemistry and properties of nanocrystals of different shapes. Chem. Rev., 105:1025
18. Chen, M, and Goodman, DW. 2006. “ Catalytically active gold:from nanoparticles to ultrathin films ”. In Acc. Chem. Res. ASAP article available online at:pubs.acs.org
19. Crooks, RM, Zhao, M, Sun, L, Chechik, V, and Yeung, LK. 2001. Dendrimer-encapsulated metal nanoparticles:synthesis, characterization, and applications to catalysis. Acc. Chem. Res., 34:181
20. Daniel, M-C, and Astruc, D. 2004. Gold nanoparticles:assembly, supramolecular chemistry, quantum-size-related properties, and applications toward biology, catalysis, and nanotechnology. Chem. Rev., 104:293
21. Templeton, AC, Hostetler, MJ, Warmoth, EK, Chen, S, Hartshorn, CM, Krishnamurthy, VM, Forbes, MDE, and Murray, RW. 1998. Gateway reactions to diverse, polyfunctional monolayer-protected gold clusters. J. Am. Chem. Soc., 120:4845
22. Fan, J, Chen, S, and Gao, Y. 2003. Coating gold nanoparticles with peptide molecules via a peptide elongation approach. Colloids Surf., B-Biointerfaces, 28:199
23. Brust, M, Walker, M, Bethell, D, Schiffrin, D, and Whyman, R. 1994. Synthesis of thiol-derivatized gold nanoparticles in a 2-phase liquid-liquid system. J. Chem. Soc. Chem. Comm.,:801
24. Bartz, M, Küther, J, Seshadri, R, and Tremel, W. 1998. Colloid-bound catalysts for ring-opening metathesis polymerization:a combination of homogeneous and heterogeneous properties. Angew. Chem. Int. Ed., 37:2466
25. Lee, BS, Namgoong, SK, and Lee, S-G. 2005. Monolayer-protected Au cluster (MPC)-bound Ru-carbene complex:synthesis and its catalytic activity in ring-closing olefin metathesis. Tetrahedron Lett., 46:4501
26. Li, H, Luk, Y-Y, and Mrksich, M. 1999. Catalytic asymmetric dihydroxylation by gold colloids functionalized with self-assembled monolayers. Langmuir, 15:4975
27. Marubayashi, K, Takizawa, S, Kawakusu, T, Arai, T, and Sasai, H. 2003. Monolayer-protected Au cluster (MPC)-supported Ti-BINOLate complex. Org. Lett., 5:4409
28. Fan, J, and Gao, Y. Unpublished results
29. Belser, T, Stöhr, M, and Pfaltz, A. 2005. Immobilization of rhodium complexes at thiolate monolayers on gold surfaces:catalytic and structure studies. J. Am. Chem. Soc., 127:8720
30. Ono, F, Kanemasa, S, and Tanaka, J. 2005. Reusable nano-sized chiral bisoxazoline catalysts. Tetrahedron Lett., 46:7623
31. Pengo, P, Polizzi, S, Pasquato, L, and Scrimin, P. 2005. Carboxylate-imidazole cooperativity in dipeptide-functionalized gold nanoparticles with esterase-like activity. J. Am. Chem. Soc., 127:1616
32. Zheng, Y, Duanmu, C, and Gao, Y. 2006. A magnetic biomimetic nanocatalyst for cleaving phosphoester and carboxylic ester bonds under mild conditions. Org. Lett., 8:3215
33. Pasquato, L, Rancan, F, Scrimin, P, Mancin, F, and Frigeri, C. 2000. N-Methylimidazole-functionalized gold nanoparticles as catalysts for cleavage of a carboxylic acid ester. Chem. Commun.,:2253
34. Hyeon, T. 2003. Chemical synthesis of magnetic nanoparticles. Chem. Commun.,:927
35. Rajh, T, Chen, LX, Lukas, K, Liu, T, Thurnauer, MC, and Tiede, DM. 2002. Surface restructuring of nanoparticles:an efficient route for ligand-metal oxide crosstalk. J. Phys. Chem. B., 106:10543
36. Stevens, PD, Fan, J, Gardimalla, HMR, Yen, M, and Gao, Y. 2005. Superparamagnetic nanoparticle-supported catalysis of Suzuki cross-coupling reactions. Organic Lett., 7:2085
37. Stevens, PD, Li, G, Fan, J, Yen, M, and Gao, Y. 2005. Recycling of homogeneous Pd catalysts using superparamagnetic nanoparticles as novel soluble supports for Suzuki, Heck, and Sonogashira cross-coupling reactions. Chem. Commun.,:4435
38. Yoon, T-J, Lee, W, Oh, Y-S, and Lee, J-K. 2003. Magnetic nanoparticles as a catalyst vehicle for simple and easy recycling. New. J. Chem., 27:227
39. Yi, DK, Lee, SS, and Ying, JY. 2006. Synthesis and applications of magnetic nanocomposite catalysts. Chem. Mater., 18:2459
40. Jun, C-H, Park, YJ, Yeon, Y-R, Choi, J.-r., Lee, W.-r., Ko, S-j., and Cheon, J. 2006. Demonstration of a magnetic and catalytic Co@Pt nanoparticles as a dual-function nanoplatform. Chem. Commun.,:1619
41. Ding, S, Xing, Y, Radosz, M, and Shen, Y. 2006. Magnetic nanoparticle supported catalyst for atom transfer radical polymerization. Macromolecules, 39:6399
42. Hu, A, Yee, GT, and Lin, W. 2005. Magnetically recoverable chiral catalysts immobilized on magnetite nanoparticles for asymmetric hydrogenation of aromatic ketones. J. Am. Chem. Soc., 127:12486
43. Abu-Reziq, R, Alper, H, Wang, D, and Post, ML. 2006. Metal supported on dendronized magnetic nanoparticles:highly selective hydroformylation catalysts. J. Am. Chem. Soc., 128:5279
44. Lim, J, and Simanek, EE. 2005. Toward the next-generation drug delivery vehicle:synthesis of a dendrimer with four orthogonally reactive groups. Mol. Pharm., 2:273
45. Duanmu, C, Saha, I, Zheng, Y, Goodson, BM, and Gao, Y. “ Dendron–functionalized superparamagnetic nanoparticles with switchable solubility in organic and aqueous media:matrices for homogeneous catalysis and potential MRI contrast agents ”. In Chem. Mater. (in press)
46. Zheng, Y, Stevens, PD, and Gao, Y. 2006. Magnetic nanoparticles as an orthogonal support of polymer resins:applications to solid-phase Suzuki cross-coupling reactions. J. Org. Chem., 71:537
47. Phan, NTS, Gill, CS, Nguyen, JV, Zhang, ZJ, and Jones, CW. 2006. Expanding the utility of one-pot multistep reaction networks through compartmentation and recovery of the catalyst. Angew. Chem. Int. Ed., 45:2209
48. Gardimalla, HMR, Mandal, D, Stevens, PD, Yen, M, and Gao, Y. 2005. Superparamagnetic nanoparticle-supported enzymatic resolution of racemic carboxylates. Chem. Commun.,:4432
49. Gao, X, Yu, KMK, Tam, KY, and Tsang, SC. 2003. Colloidal stable silica encapsulated nano-magnetic composite as a novel bio-catalyst carrier. Chem. Commun.,:2998
50. 3 magnetic nanoparticles. J. Am. Chem. Soc., 125:1684
51. Bromberg, L, and Hatton, TA. 2005. Nerve agent destruction by recyclable catalytic magnetic nanoparticles. Ind. Eng. Chem. Res., 44:7991