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Results:
1-18
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Results: 18
Authors:
Nitzan, A
Citation: A. Nitzan, A relationship between electron-transfer rates and molecular conduction, J PHYS CH A, 105(12), 2001, pp. 2677-2679
Authors:
Zilberman, S
Persson, BNJ
Nitzan, A
Mugele, F
Salmeron, M
Citation: S. Zilberman et al., Boundary lubrication: Dynamics of squeeze-out - art. no. 055103, PHYS REV E, 6305(5), 2001, pp. 5103
Authors:
Wu, DG
Cahen, D
Graf, P
Naaman, R
Nitzan, A
Shvarts, D
Citation: Dg. Wu et al., Direct detection of low-concentration NO in physiological solutions by a new GaAs-based sensor, CHEM-EUR J, 7(8), 2001, pp. 1743-1749
Authors:
Kornyshev, AA
Nitzan, A
Citation: Aa. Kornyshev et A. Nitzan, Effect of overscreening on the localization of hydrated electrons, Z PHYS CHEM, 215, 2001, pp. 701-715
Authors:
Segal, D
Nitzan, A
Citation: D. Segal et A. Nitzan, Steady-state quantum mechanics of thermally relaxing systems, CHEM PHYS, 268(1-3), 2001, pp. 315-335
Authors:
Nitzan, A
Citation: A. Nitzan, Electron transmission through molecules and molecular interfaces, ANN R PH CH, 52, 2001, pp. 681-750
Authors:
Galperin, M
Nitzan, A
Citation: M. Galperin et A. Nitzan, Inelastic effects in electron tunneling through water layers, J CHEM PHYS, 115(6), 2001, pp. 2681-2694
Authors:
Galperin, M
Nitzan, A
Peskin, U
Citation: M. Galperin et al., Traversal time for electron tunneling in water, J CHEM PHYS, 114(21), 2001, pp. 9205-9208
Authors:
Graf, P
Nitzan, A
Kurnikova, MG
Coalson, RD
Citation: P. Graf et al., A dynamic lattice Monte Carlo model of ion transport in inhomogeneous dielectric environments: Method and implementation, J PHYS CH B, 104(51), 2000, pp. 12324-12338
Authors:
Nitzan, A
Jortner, J
Wilkie, J
Burin, AL
Ratner, MA
Citation: A. Nitzan et al., Tunneling time for electron transfer reactions, J PHYS CH B, 104(24), 2000, pp. 5661-5665
Authors:
Segal, D
Nitzan, A
Davis, WB
Wasielewski, MR
Ratner, MA
Citation: D. Segal et al., Electron transfer rates in bridged molecular systems 2. A steady-state analysis of coherent tunneling and thermal transitions, J PHYS CH B, 104(16), 2000, pp. 3817-3829
Authors:
Segal, D
Nitzan, A
Ratner, M
Davis, WB
Citation: D. Segal et al., Activated conduction in microscopic molecular junctions, J PHYS CH B, 104(13), 2000, pp. 2790-2793
Authors:
Dieterich, W
Durr, O
Pendzig, P
Bunde, A
Nitzan, A
Citation: W. Dieterich et al., Percolation concepts in solid state ionics, PHYSICA A, 266(1-4), 1999, pp. 229-237
Authors:
Mujica, V
Nitzan, A
Mao, Y
Davis, W
Kemp, M
Roitberg, A
Ratner, MA
Citation: V. Mujica et al., Electron transfer in molecules and molecular wires: Geometry dependence, coherent transfer, and control, ADV CH PHYS, 107, 1999, pp. 403-429
Authors:
Nitzan, A
Citation: A. Nitzan, Chemical physics - Ultrafast relaxation in water, NATURE, 402(6761), 1999, pp. 472
Authors:
Galperin, M
Segal, D
Nitzan, A
Citation: M. Galperin et al., Perturbation theory approach to tunneling: Direct and resonance transmission in super-exchange models, J CHEM PHYS, 111(4), 1999, pp. 1569-1579
Authors:
Peskin, U
Edlund, A
Bar-On, I
Galperin, M
Nitzan, A
Citation: U. Peskin et al., Transient resonance structures in electron tunneling through water, J CHEM PHYS, 111(16), 1999, pp. 7558-7566
Authors:
Kurnikova, MG
Coalson, RD
Graf, P
Nitzan, A
Citation: Mg. Kurnikova et al., A lattice relaxation algorithm for three-dimensional Poisson-Nernst-Plancktheory with application to ion transport through the gramicidin A channel, BIOPHYS J, 76(2), 1999, pp. 642-656
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