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Items: 1 to 20 of 85

1.

Redispersion of transition metal nanoparticle catalysts in tetraalkylphosphonium ionic liquids.

Banerjee A, Theron R, Scott RW.

Chem Commun (Camb). 2013 Apr 21;49(31):3227-9. doi: 10.1039/c3cc40726h. Epub 2013 Mar 13.

PMID:
23482965
2.

Highly stable noble-metal nanoparticles in tetraalkylphosphonium ionic liquids for in situ catalysis.

Banerjee A, Theron R, Scott RW.

ChemSusChem. 2012 Jan 9;5(1):109-16. doi: 10.1002/cssc.201100413. Epub 2011 Dec 15.

PMID:
22174187
3.

On the structural and surface properties of transition-metal nanoparticles in ionic liquids.

Dupont J, Scholten JD.

Chem Soc Rev. 2010 May;39(5):1780-804. doi: 10.1039/b822551f. Epub 2010 Feb 8.

PMID:
20419219
4.

Stability and growth behavior of transition metal nanoparticles in ionic liquids prepared by thermal evaporation: how stable are they really?

Richter K, Birkner A, Mudring AV.

Phys Chem Chem Phys. 2011 Apr 21;13(15):7136-41. doi: 10.1039/c0cp02623a. Epub 2011 Mar 14.

PMID:
21399810
5.

Progress in design and architecture of metal nanoparticles for catalytic applications.

Mori K, Yamashita H.

Phys Chem Chem Phys. 2010 Nov 21;12(43):14420-32. doi: 10.1039/c0cp00988a. Epub 2010 Sep 30.

PMID:
20882227
7.

One-pot environmentally friendly approach toward highly catalytically active bimetal-nanoparticle-graphene hybrids.

Liu CH, Chen XQ, Hu YF, Sham TK, Sun QJ, Chang JB, Gao X, Sun XH, Wang SD.

ACS Appl Mater Interfaces. 2013 Jun 12;5(11):5072-9. doi: 10.1021/am4008853. Epub 2013 May 20.

PMID:
23668945
8.

Nanoscale Ru(0) particles: arene hydrogenation catalysts in imidazolium ionic liquids.

Prechtl MH, Scariot M, Scholten JD, Machado G, Teixeira SR, Dupont J.

Inorg Chem. 2008 Oct 6;47(19):8995-9001. doi: 10.1021/ic801014f. Epub 2008 Aug 30.

PMID:
18759430
9.
10.

Ionic liquid immobilized nickel(0) nanoparticles as stable and highly efficient catalysts for selective hydrogenation in the aqueous phase.

Hu Y, Yu Y, Hou Z, Yang H, Feng B, Li H, Qiao Y, Wang X, Hua L, Pan Z, Zhao X.

Chem Asian J. 2010 May 3;5(5):1178-84. doi: 10.1002/asia.200900628.

PMID:
20340156
11.
12.
13.

Catalytic applications of metal nanoparticles in imidazolium ionic liquids.

Migowski P, Dupont J.

Chemistry. 2007;13(1):32-9.

PMID:
17115465
14.

Ionic-liquid-supported (ILS) catalysts for asymmetric organic synthesis.

Ni B, Headley AD.

Chemistry. 2010 Apr 19;16(15):4426-36. doi: 10.1002/chem.200902747. Epub 2010 Mar 16.

PMID:
20235242
15.

Synthesis of gold nanoparticles by laser ablation of an Au foil inside and outside ionic liquids.

Wender H, Andreazza ML, Correia RR, Teixeira SR, Dupont J.

Nanoscale. 2011 Mar;3(3):1240-5. doi: 10.1039/c0nr00786b. Epub 2011 Jan 26.

PMID:
21267499
16.

Encapsulation of transition metal catalysts by ligand-template directed assembly.

Slagt VF, Kamer PC, van Leeuwen PW, Reek JN.

J Am Chem Soc. 2004 Feb 11;126(5):1526-36.

PMID:
14759211
17.

Separation and recycling of nanoparticles using cloud point extraction with non-ionic surfactant mixtures.

Nazar MF, Shah SS, Eastoe J, Khan AM, Shah A.

J Colloid Interface Sci. 2011 Nov 15;363(2):490-6. doi: 10.1016/j.jcis.2011.07.070. Epub 2011 Jul 29.

PMID:
21868022
18.

Facile synthesis of graphene/metal nanoparticle composites via self-catalysis reduction at room temperature.

Zhuo Q, Ma Y, Gao J, Zhang P, Xia Y, Tian Y, Sun X, Zhong J, Sun X.

Inorg Chem. 2013 Mar 18;52(6):3141-7. doi: 10.1021/ic302608g. Epub 2013 Mar 1.

PMID:
23451829
19.

Silver sulfide nanoparticle assembly obtained by reacting an assembled silver nanoparticle template with hydrogen sulfide gas.

Chen R, Nuhfer NT, Moussa L, Morris HR, Whitmore PM.

Nanotechnology. 2008 Nov 12;19(45):455604. doi: 10.1088/0957-4484/19/45/455604. Epub 2008 Oct 9.

PMID:
21832781
20.

Direct evidence of water-assisted sintering of cobalt on carbon nanofiber catalysts during simulated Fischer-Tropsch conditions revealed with in situ mossbauer spectroscopy.

Bezemer GL, Remans TJ, van Bavel AP, Dugulan AI.

J Am Chem Soc. 2010 Jun 30;132(25):8540-1. doi: 10.1021/ja103002k.

PMID:
20524607

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