Superatoms. Группа авторов

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Superatoms - Группа авторов


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Schafer, R. (2014). Dielectric Properties of Isolated Clusters: Beam Deflection Studies. New York: Springer.

      20 20 Tsukuda, T. and Hakkinen, H. (2015). Protected Metal Clusters: From Fundamentals to Applications. New York: Elsevier.

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      33 33 Bonačić‐Koutecký, V. and Mitrić, R. (2005). Theoretical exploration of ultrafast dynamics in atomic clusters: analysis and control. Chem. Rev. 105: 11–66.

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      35 35 Morse, M.D. (1986). Clusters of transition‐metal atoms. Chem. Rev. 86: 1049–1109.

      36 36 Fendler, J.H. (1987). Atomic and molecular clusters in membrane mimetic chemistry. Chem. Rev. 87: 877–899.

      37 37 Jelski, D.A. and George, T.F. (1988). Clusters: link between molecules and solids. J. Chem. Educ. 65: 879–883.

      38 38 Kappes, M.M. (1988). Experimental studies of gas‐phase main‐group metal clusters. Chem. Rev. 88: 369–389.

      39 39 Weltner, W. and Van Zee, R.J. (1989). Carbon molecules, ions, and clusters. Chem. Rev. 89: 1713–1747.

      40 40 Van Orden, A. and Saykally, R.J. (1998). Small carbon clusters: spectroscopy, structure, and energetics. Chem. Rev. 98: 2313–2358.

      41 41 Kong, X.‐J., Long, L.‐S., Zheng, Z. et al. (2010). Keeping the ball rolling: fullerene‐like molecular clusters. Acc. Chem. Res. 43: 201–209.

      42 42 Adams, R.D. (1989). Metal cluster complexes containing heteroatom‐substituted carbene. ligands. Chem. Rev. 89: 1703–1712.

      43 43 Mingos, D.M.P., Slee, T., and Zhenyang, L. (1990). Bonding models for ligated and bare clusters. Chem. Rev. 90: 383–402.

      44 44 Leutwyler, S. and Boesiger, J. (1990). Rare‐gas solvent clusters: spectra, structures, and order‐disorder transitions. Chem. Rev. 90: 489–507.

      45 45 Chalasinski, G. and Szczesniak, M.M. (1994). Origins of structure and energetics of van der Waals clusters from ab Initio calculations. Chem. Rev. 94: 1723–1765.

      46 46 Shang, Q.Y. and Bernstein, E.R. (1994). Energetics, dynamics, and reactions of Rydberg state molecules in van der Waals clusters. Chem. Rev. 94: 2015–2025.

      47 47 Garvey, J.F., Herron, W.J., and Vaidyanathan, G. (1994). Probing the structure and reactivity of hydrogen‐bonded clusters of the type {M}n{H2O}H+, via the observation of magic numbers. Chem. Rev. 94: 1999–2014.

      48 48 Plesek, J. (1992). Potential applications of the boron cluster compounds. Chem. Rev. 92: 269–278.

      49 49 Hawthorne, M.F. and Maderna, A. (1999). Applications of radiolabeled boron clusters to the diagnosis and treatment of cancer. Chem. Rev. 99: 3421–3434.

      50 50 Schmid, G. (1992). Large clusters and colloids: metals in the embryonic state. Chem. Rev. 92: 1709–1727.

      51 51 Parent, D.C. and Anderson, S.L. (1992). Chemistry of metal and semimetal cluster ions. Chem. Rev. 92: 1541–1565.

      52 52 Brutschy, B. (1992). Ion‐molecule reactions within molecular clusters. Chem. Rev. 92: 1567–1587.

      53 53 Illenberger, E. (1992). Electron‐attachment reactions in molecular clusters. Chem. Rev. 92: 1589–1609.

      54 54 Hobza, P., Selzle, H.L., and Schlag, E.W. (1994). Structure and properties of benzene‐containing molecular clusters: nonempirical ab initio calculations and experiments. Chem. Rev. 94: 1767–1785.

      55 55 Kim, K.S., Tarakeshwar, P., and Lee, J.Y. (2000). Molecular clusters of π‐systems: theoretical studies of structures, spectra, and origin of interaction energies. Chem. Rev. 100: 4145–4186.

      56 56 Sun, T. and Seff, K. (1994). Silver clusters and chemistry in zeolites. Chem. Rev. 94: 857–870.

      57 57 Braga, D., Dyson, P.J., Grepioni, F., and Johnson, B.F.G. (1994). Arene clusters. Chem. Rev. 94: 1585–1620.

      58 58 Gates, B.C. (1995). Supported metal clusters: synthesis, structure, and catalysis. Chem. Rev. 95: 511–522.

      59 59 Alexeev, O.S. and Gates, B.C. (2003). Supported bimetallic cluster catalysts. Ind. Eng. Chem. Res. 42: 1571–1587.

      60 60 Yachandra, V.K., Sauer, K., and Klein, M.P. (1996). Manganese cluster in photosynthesis: where plants oxidize water to dioxygen. Chem. Rev. 96: 2927–2950.

      61 61 Bačić, Z. and Miller, R.E. (1996). Molecular clusters: structure and dynamics of weakly bound systems. J. Phys. Chem. 100: 12945–12959.

      62 62 Ogino, H., Inomata, S., and Tobita, H. (1998). Abiological iron‐sulfur clusters. Chem. Rev. 98: 2093–2122.

      63 63 Henderson, R.A. (2005). Mechanistic studies on synthetic Fe−S‐based clusters and their relevance to the action of nitrogenases. Chem. Rev. 105: 2365–2438.

      64 64 Lee, S.C., Lo, W., and Holm, R.H. (2014). Developments in the biomimetic chemistry of cubane‐type and higher nuclearity iron‐sulfur clusters. Chem. Rev. 114: 3579–3600.

      65 65 Desfrançois, C., Carles, S., and Schermann, J.P. (2000). Weakly bound clusters of biological interest. Chem. Rev. 100: 3943–3962.

      66 66 Buck, U. and Huisken, F. (2000). Infrared spectroscopy of size‐selected water and methanol clusters. Chem. Rev. 100: 3863–3890.

      67 67 Rohmer, M.‐M., Bénard, M., and Poblet, J.‐M. (2000). Structure, reactivity, and growth pathways of metallocarbohedrenes M8C12 and transition metal/carbon clusters and nanocrystals: a challenge to computational chemistry. Chem. Rev. 100: 495–542.

      68 68 Dedonder‐Lardeux, C., Grégoire, G., Jouvet, C. et al. (2000). Charge separation in molecular clusters: dissolution of a salt in a salt−(solvent)n cluster. Chem. Rev. 100: 4023–4038.

      69 69 Niedner‐Schatteburg, G. and Bondybey, V.E. (2000). FT‐ICR studies of solvation effects in ionic water cluster reactions. Chem. Rev. 100: 4059–4086.

      70 70 Zhong, Q. and Castleman, A.W. (2000). An ultrafast glimpse of cluster solvation effects on reaction dynamics. Chem. Rev. 100: 4039–4058.

      71 71 Stace, A.J. (2002).


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