| 1 |
Engineering Metallic Nanoparticles for Enhancing and Probing Catalytic Reactions
Collins G, Holmes JD
Advanced Materials, 28(27), 5689, 2016 |
| 2 |
Nanoparticles at fluid interfaces: Exploiting capping ligands to control adsorption, stability and dynamics
Garbin V, Crocker JC, Stebe KJ
Journal of Colloid and Interface Science, 387, 1, 2012 |
| 3 |
Directing oxidation of cobalt nanoparticles with the capping ligand
Doan N, Kontturi K, Johans C
Journal of Colloid and Interface Science, 350(1), 126, 2010 |
| 4 |
Metal oxide nanoparticles from inorganic sources via a simple and general method
Zhou LP, Xu J, Li XQ, Wang F
Materials Chemistry and Physics, 97(1), 137, 2006 |
| 5 |
Reaction of CP-Asterisk-Co-3(3)(Mu(3)-Cch3)(Mu-3-H) with (Trimethylsilyl)Diazomethane and Ethyl Diazoacetate - Facile Hydrogen-Transfer Farms the Diazenide Clusters CP-Asterisk-Co-3(3)(Mu(3)-Cch3)(Mu(3)-Eta(1)-Nnch(2)Sime(3)) and CP-Asterisk-Co-3(3)(Mu(3)-Cch3)(Mu(3)-Eta(1)-Nnch2Co2Ch2Ch3)
Casey CP, Widenhoefer RA, Hayashi RK
Inorganic Chemistry, 34(8), 2258, 1995 |
| 6 |
Syntheses and X-Ray Crystal-Structures of the Tricobalt Mono(Ethylidyne) Clusters CP-Asterisk-3Co3(Mu-3-Cch3)(Mu-3-Co)(Mu-2-H), CP-Asterisk-3Co3(Mu-3-Cch3)(Mu-3-Cncme3)(Mu-2-H), and CP-Asterisk-3Co3(Mu-3-Cch3)(Mu-3-No)
Casey CP, Widenhoefer RA, Hallenbeck SL, Hayashi RK
Inorganic Chemistry, 33(12), 2639, 1994 |
