R. Finke And S. Ozkar, "Molecular insights for how preferred oxoanions bind to and stabilize transition-metal nanoclusters: a tridentate, C-3 symmetry, lattice size-matching binding model," COORDINATION CHEMISTRY REVIEWS , vol.248, pp.135-146, 2004
Finke, R. And Ozkar, S. 2004. Molecular insights for how preferred oxoanions bind to and stabilize transition-metal nanoclusters: a tridentate, C-3 symmetry, lattice size-matching binding model. COORDINATION CHEMISTRY REVIEWS , vol.248 , 135-146.
Finke, R., & Ozkar, S., (2004). Molecular insights for how preferred oxoanions bind to and stabilize transition-metal nanoclusters: a tridentate, C-3 symmetry, lattice size-matching binding model. COORDINATION CHEMISTRY REVIEWS , vol.248, 135-146.
Finke, RG, And SAİM ÖZKAR. "Molecular insights for how preferred oxoanions bind to and stabilize transition-metal nanoclusters: a tridentate, C-3 symmetry, lattice size-matching binding model," COORDINATION CHEMISTRY REVIEWS , vol.248, 135-146, 2004
Finke, RG And Ozkar, SAİM. "Molecular insights for how preferred oxoanions bind to and stabilize transition-metal nanoclusters: a tridentate, C-3 symmetry, lattice size-matching binding model." COORDINATION CHEMISTRY REVIEWS , vol.248, pp.135-146, 2004
Finke, R. And Ozkar, S. (2004) . "Molecular insights for how preferred oxoanions bind to and stabilize transition-metal nanoclusters: a tridentate, C-3 symmetry, lattice size-matching binding model." COORDINATION CHEMISTRY REVIEWS , vol.248, pp.135-146.
@article{article, author={RG Finke And author={SAİM ÖZKAR}, title={Molecular insights for how preferred oxoanions bind to and stabilize transition-metal nanoclusters: a tridentate, C-3 symmetry, lattice size-matching binding model}, journal={COORDINATION CHEMISTRY REVIEWS}, year=2004, pages={135-146} }