A. Nitzan
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PATENTS
L.E.Brus and A.Nitzan
Chemical processing using electromagnetic field enhancement
U.S.A patent 4481091, Nov,6,1984.
BOOKS
A. Nitzan
Chemical Dynamics in Condensed Phases
Oxford University
Press, 2006 (744 pages)
ARTICLES
Pecularities of the non radiative
decay of a single vibronic level in polyatomic molecules.
Chem. Phys. Letters 8, 445-447 (1971).
2. A. Nitzan, J. Jortner, J. Kommandeur and E. Drent
A quantum mechanical analogue to the Stern-Volmer equation
Chem. Phys. Letters 9, 273-378 (1971).
3. A. Nitzan and J. Jortner
Optical selection
studies of radiationless decay in an isolated large molecule.
J. Chem. Phys. 55, 1355-1368 (1971).
Internal conversion in large
molecules
Mol. Phys. 22, 585-592 (1971).
What is the nature of intramolecular
coupling responsible for internal conversion in large
molecules?
Chem. Phys. Letters 11, 458-463
(1971).
9. A. Nitzan and J. Jortner
Line shape of
molecular resonances
Mol. Phys. 24, 109-131 (1972).
22. A. Nitzan
Photon
absorption and scattering in Fano antiresonances.
Mol. Phys. 27, 65-80 (1974).
32. A.
Nitzan, S. Mukamel and J. Jortner
Energy gap
law for vibrational relaxation of a molecule in a
dense medium.
J. Chem. Phys. 63, 200-207 (1975).
44. A. Nitzan
Chemical
instabilities as critical phenomena.
Phys. Rev. 17 , 1513-1528 (1978).
51. A. Nitzan and J. Jortner
Inverse
electronic relaxation.
Chem. Phys. Letters 60 , 1-4
(1979).
53. P.
Salomon, A. Nitzan, B. Andresen and S. Berry
Minimum
entropy production and the optimization of heat
engines.
Phys. Rev. A21 , 2115-2129 (1980).
62. A. Nitzan
High energy
photochemistry.
J. Chim. Physique 77 , 51-57
(1980).
85. D.A.
Weitz, S. Garoff, J.I. Gersten and A. Nitzan
A comparison of
Raman Scattering, resonance Raman scattering and
fluorescence from molecules adsorbed on silver island
films.
J. Electron Spectroscopy 29 , 363
(1983).
Also in studies
in surface science and catalysis, Vol. 14 ,
Vibrations and Surfaces, p. 363, C.R. Bundle and H. Morawitz, Eds.
96. A.
Nitzan
Unimolecular
reactions in condensed phases: Is the turnover in
the viscosity dependence of the rate observable?
J. Chem. Phys. 82 , 1614-1616
(1985).
139.
R.Granek and A.Nitzan
Dynamic
percolation theory for diffusion of interacting
particles.
J.Chem.Phys. 92,1329-1338(1990).
181. R.
Olender and Abraham Nitzan,
Solvation
dynamics in dielectric solvents with restricted
rotations: Polyethers
J. Chem. Phys., 102, 7180(1995).
185. R.
Olender, A. Nitzan, D. Knodler and W. Dieterich
Lattice theory of solvation
dynamics in macromolecular fluids: III. Monte-Carlo
simulations.
J. Chem. Phys. vol.103, 6275-82 (1995)
186. A. Mosyak, A. Nitzan and R.
Kosloff
Numerical simulations of electron
tunneling in water
J. Chem. Phys. 104, 1549(1996)
187. P. Graf, A. Nitzan and G.H.F. Dickersen
Phenomenology of electron
solvation in polar fluids
J. Chem. Phys. 107, 10470 (1997)
204. A. Nitzan
Ultrafast
relaxation in water [News and views commentary]
Nature, 402, 472-475 (1999)
207. D. Segal, A.
Nitzan, W. B. Davis, M.R. Wasielewski and M.A. Ratner
Electron transfer rates in
bridged molecular systems 2. A steady state
analysis of coherent tunneling and thermal
transitions
J. Phys. Chem. B, 104, 3817-3829 (2000)
250.
D. Segal and A. Nitzan
A spin boson
thermal rectifier
Phys. Rev
Letters. 94, 034301 (2005)
251. A.W.
Ghosh,P.S. Damle,S. Datta,and A. Nitzan
Molecular
Electronics: Theory and device prospects
253.
M. Galperin, A. Nitzan, M. A. Ratner and D.
R. Stewart
254. M. Galperin, M. A. Ratner
and A. Nitzan
Nano Letters, 5, 125-130 (2005)
255. O.Durr, W.Dieterich and A.
Nitzan
J. Chem. Phys. 121, 12732-39 (2004)
256. D. Segal and A. Nitzan
J. Chem. Phys. 122, 194704 (2005)
Path Integral computations of
tunneling processes
J. Chem. Phys. 123, 104103 (2005)
Current induced light
emission and light induced current in molecular
tunneling junctions
Phys. Rev Letters, 95, 206802 (2005)
259. J. Koch, M.
Semmelhack, F. von Oppen and A. Nitzan
Current-induced
nonequilibrium vibrations in single-molecule
devices
Phys. Rev. B, 73, 155306 (2006)
Optical
properties of current carrying molecular wires
J. Chem. Phys. 124, 234709 (2006)
Molecular heat pump
Phys. Rev. E 73, 026109 (2006)
Conduction in molecular
transport junction: Current from coupling to the
electron-hole excitations in the leads
Phys. Rev. Letters, 96, 166803
(2006)
Resonant inelastic tunneling
in molecular junctions
Phys. Rev. B 73, 045314 (2006)
Inelastic tunneling
effects on noise properties of molecular junctions
Phys.
Rev. B 74, 075326 (2006)
Heat conduction in molecular
transport junctions
Phys.
Rev. B 75, 155312 (2007)
Molecular Transport
Junctions: Vibrational Effects
J.
Phys.: Condens. Matter 19, 103201 (2007)
Inelastic effects
in molecular junctions in the Coulomb and Kondo
regimes: Nonequilibrium equation-of-motion approach
Phys.
Rev. B 76, 035301 (2007)
Molecules take the heat
Science,
317, 759 (2007)
Inelastic
effects in molecular junction transport: Scattering
and self-consistent calculations for the Seebeck
coefficient
Molecular Physics, 106,
397-404 (2008)
272.B. Fainberg, M. Jouravlev and A.
Nitzan
Theory of light-induced current
in molecular-tunneling junctions excited with
intense shaped pulses
Phys. Rev. B 76,
245329 (2007)
Nuclear Coupling and Polarization
in Molecular Transport Junctions: Beyond
Tunneling to Function
274. Joseph E. Subotnik, Abraham Nitzan
Multibody Scattering,
Correlation, Molecular Conduction and the 0.7 Anomaly
J.
Chem. Phys. 129, 144107 (2008)
Inelastic transport in the
Coulomb blockade regime within a nonequilibrium atomic
limit
Phys.
Rev. B, 78, 125320 (2008)
The non-linear response of
molecular junctions: the polaron model revisited
J. Phys.: Condens. Matter 20, 374107 (2008)
277. B. Fainberg and A. Nitzan
Decaying Rabi oscillations in
quantum-dot tunnelling junctions
Phys. Stat. Sol. A, 206, 948-951 (2009)
278. S. S. Skourtis,
D. N. Beratan, R. Naaman, A. Nitzan and D. H.
Waldeck
Chiral control of electron
transmission through molecules
Phys. Rev. Letters, 101, 238103 (2008)
279. S. Tornow, R. Bulla, F. B. Anders and A.
Nitzan
Dissipative two-electron
transfer: A numerical renormalization group study
Phys. Rev. B 78, 035434 (2008)
Raman scattering from
non-equilibrium molecular conduction junctions
Nano Letters, 9, 758-762 (2009)
Raman scattering in current carrying molecular junctions
J. Chem. Phys. 130, 144109 (2009)
282. S. Yeganeh, M. Ratner M. Galperin
and A. Nitzan
Transport in State Space: Voltage-Dependent Conductance Calculations of Benzene-1,4-dithiol
Nano Letters, 9, 1970-74 (2009)
Cooperative effects in molecular conduction II: The Semiconductor−Metal Molecular Junction
J. Phys. Chem. A, 113, 7452-7460 (2009).
Cooling mechanisms in molecular
conduction junctions
285. J. E. Subotnik, T. Hansen, M. A. Ratner and A. Nitzan
Nonequilibrium steady state transport via the reduced density matrix operator
J. Chem. Phys. 130, 144105 (2009)
286. H. Nakanishi, K. J. M. Bishop, B. Kowalczyk, A. Nitzan, E. A. Weiss, K. V. Tretiakov, M. M. Apodaca, R. Klajn, J. F. Stoddart and B. A. Grzybowski
Photoconductance and inverse photoconductance in films of functionalized metal nanoparticles
Nature, 460, 371-375 (2009)
Nonlinear hopping transport in ring systems and open channels
Phys. Chem. Chem. Phys. 12, 645-654 (2010)
288. G. Li, B. D. Fainberg, A. Nitzan, S. Kohler and Peter Hänggi
Coherent
charge transport through molecular wires: Exciton blocking
and current from electronic excitations in the wire
Phys. Rev. B 81, 165310(2010) [14 pages]
289. V. Ben Moshe, A. Nitzan, S. S. Skourtis and D. Beratan
Steady-state theory of current transfer
J. Phys. Chem. C, 114, 8005–8013 (2010)
290. V. Ben-Moshe, D. Rai, S. S. Skourtis and A. Nitzan
Steady state current transfer and scattering theory
J. Chem. Phys, 133, 054105 (2010) [9 pages]
292. M. Einax, G. Solomon, W. Dieterich and A. Nitzan
Unidirectional hopping transport of interacting particles on a finite chain
J. Chem. Phys. 133, 054102 (2010) [12 pages]
293.
Circular Currents in Molecular
Wires
J.
Phys. Chem C, 114, 20583-20594 (2010)
294. M.
Galperin and A. Nitzan
Raman
scattering and electronic heating in molecular conduction
junctions
J. Phys. Chem. Lett. 2, 2110–2113 (2011)
295. A. Bednorz W.
Belzig and A. Nitzan
Time correlation functions in
quantum continuous measurement
New
J. Phys., 14, 013009(2012) [20 pages]
296. A. Migliore and A. Nitzan
Nonlinear charge transport in
redox molecular junctions: a Marcus perspective
ACS Nano, 5, 6669-6685 (2011)
297.
D. Rai, O. Hod and A.
Nitzan
Magnetic Field Control of the
Current through Molecular Ring Junctions
J. Phys. Chem. Lett. 2,
2118–2124 (2011)
298. M. Einax, M. Dierl and A. Nitzan
J. Phys. Chem. C, 115, 21396–21401 (2011)
299. M.
Sukharev and A. Nitzan
Optics of atomic clusters in two
dimensions: rigorous numerical studies
Phys. Rev. A 84, 043802 (2011) (10 pages)
300. M. Galperin and A. Nitzan
Phys. Rev. B 84, 195325 (2011) (10 pages)
301. D. Rai, O. Hod and A. Nitzan
Magnetic Fields Effects on the
Electronic Conduction Properties of Molecular Ring
Structures
Phys. Rev. B, 85, 155440 (2012) (21 pages)
302. G.
Li, M. S. Shishodia, B. D. Fainberg, B. Apter,
M. Oren, A. Nitzan, M. A. Ratner
Nano Lettters, 12,
2228-32 (2012)
303. M. Oren, M. Galperin and
A. Nitzan
Raman scattering from molecular
conduction junctions: the charge transfer mechanism
Phys. Rev. B, 85,
115435 (2012) (12 pages)
304. A. Migliore and A. Nitzan
On the evaluation of the
Marcus-Hush-Chidsey integral
J. Electroanal. Chem. 671, 99-101 (2012)
305. M. Galperin and A. Nitzan
Molecular optoelectronics: The
interaction of molecular conduction junctions with light
Phys.
Chem. Chem. Phys., 14, 9421 - 9438 (2012)
306. A. Migliore, P. Schiff and
A. Nitzan
Phys. Chem. Chem. Phys., 14,
13746 - 13753 (2012)
307. G. Li, A. Nitzan and M. A. Ratner
Yield of exciton dissociation in a donor - acceptor
photovoltaic junction
Phys. Chem. Chem. Phys. 14,
14270
(2012)
308. G. Li, B. Movaghar, A. Nitzan and M. A.
Ratner
Polaron formation: Ehrenfest dynamics vs. exact
results
J. Chem. Phys.
138, 044112 (2013)
309. M. Galperin† and Abraham Nitzan
Cooperative effects in inelastic
tunneling
J. Phys.Chem.
B, 317, 4449-4453 (2013)
310. S. K. Maiti and A. Nitzan
Mobility
edge phenomenon in a Hubbard chain: A mean field study
Physics
Letters A, 377, 1205-1209 (2013)
311. M. Kornbluth, T. Seideman and A. Nitzan
Light-induced electronic
non-equilibrium in plasmonic particles
J. Chem. Phys.
138,
174707 (2013) (9 pages)
312. A. White, A. Migliore, M. Galperin and A. Nitzan
Quantum Transport With Two
Interacting Conduction Channels
J. Chem. Phys.
138,
174111 (2013) (6 pages)
313. A. Migliore and A. Nitzan
Irreversibility and hysteresis
in redox molecular conduction junctions
J.Am.Chem.Soc,
135, 9420-32 (2013)
314. K.
Kaasbjerg, T. Novotny and A. Nitzan
Phys.
Rev. B (Rapid Communication), 88, 201405(R) (2013)
315. J.
Gersten, K. Kaasbjerg and A. Nitzan
J. Chem. Phys. 139,
114111 (2013) (20 pages)
316. M. Sukharev N. Freifeld and A. Nitzan
Numerical calculations of
radiative and non-radiative relaxation of molecules near
metal particles
J. Phys. Chem. C, 118, 1054 (2014)
.
317. M. Einax, M. Dierl, Philip R. Schiff and A. Nitzan
European Phys. Let., 104, 40002 (2013) (6 pages)
.
318. K. B. Whaley, A. A. Kocherzhenko and A. Nitzan
Coherent
and Diffusive Timescales for Exciton Dissociation in Bulk
Heterojunction Photovoltaic Cells
J. Phys. Chem. C, 118, 27235−27244 (2014)
.
Network analysis of photovoltaic
energy conversion
J. Phys. Chem. C, 118, 27226-27234 (2014)
.
New J. Phys., 17, 01300 (2015)
321. A. Migliore and A. Nitzan
Irreversibility in redox molecular
conduction: single versus double metal-molecule interfaces
Electrochimica Acta 160, 363–375 (2015)
322. W.
Dou, A. Nitzan and J. E. Subotnik
J. Chem. Phys. 142, 084110 (2015)
323. K.
Kaasbjerg and A. Nitzan
Phys. Rev. Letters, 114, 126803 (2015)
324. W. Dou, A. Nitzan and J. E. Subotnik
325. W. Dou, A. Nitzan and J. E. Subotnik
Frictional
effects near a metal surface
J. Chem. Phys. 143, 054103 (2015) (9 pages)
326. M. Galperin
and A. Nitzan
Nuclear
Dynamics at Molecule-Metal Interfaces: A pseudoparticle
perspective
J. Phys. Chem. Lett. 6, 4896-4903 (2015)
327. S. Dey, M. Banik, E. Hulkko, K. Rodriguez, V. A.
Apkarian, M. Galperin and A. Nitzan
Phys. Rev. B 93, 035411
(2016) (6 pages)
328. W. Dou, A. Nitzan J.
Subotnik
Molecular Electronic States
Near Metal Surfaces at Equilibrium Using Potential of
Mean Force and Numerical Renormalization Group Methods:
Hysteresis Revisited.
J. Chem. Phys., 144, 074109 (2016) (12
pages)
329. M. Sukharev and A. Nitzan
Plasmon
transmission through excitonic subwavelength gaps
J. Chem. Phys.
144, 144703 (2016)
(8 pages)
330. A. Bruch, M. Thomas, S. V.
Kusminsky, F. von Oppen and A. Nitzan
Quantum
thermodynamics of the driven resonant level model
Phys. Rev. B, 93,
115318 (2016)
(14 pages)
331. M. Einax and A. Nitzan
Maximum
efficiency of state-space models of molecular scale
engines
J. Chem. Phys.
145, 014108 (2016)
332. C.
Jia, A. Migliore, N. Xin, S. Huang, J. Wang, Q. Yang, S.
Wang, H. Chen, D. Wang, B. Feng, Z. Liu, G. Zhang, D. Qu, Z. Liu, H. Tian, M. A. Ratner, H. Xu,
A. Nitzan*, and X Guo* (*Corresponding Authors)
Covalently bonded
single-molecule junctions with stable and reversible
photoswitched conductivity
Science, 352, 1443-45 (2016)
333.
Y. Gao, M. Galperin, and A.
Nitzan
On
the widths of Stokes lines in Raman scattering
J. Chem. Phys.
144, 244114
(2016) (8 pages)
334. G. T. Craven and A. Nitzan
Electron
transfer across a thermal gradient
PNAS,
113, 9421 - 9429
(2016)
335. M A. Ochoa, Anton Bruch and Abraham Nitzan
Phys.
Rev. B 94, 035420 (2016) (7 pages)
336. G.
Craven and A. Nitzan
Electron
transfer at thermally heterogeneous molecule-metal
interfaces
J.
Chem. Phys. 146,
092305 (2017) (10 pages)
337. G. T. Craven and A. Nitzan
Phys. Rev.
Lett. 118, 207201(2017)
338. R. Chen, G. Craven and A. Nitzan
Electron-transfer-induced and phononic heat transport in molecular environments
J. Chem. Phys. 147, 124101 (2017)
339. M. Sukharev and A. Nitzan
Optics of exciton-plasmon
nanomaterials
J. Phys.:
Cond. Matt. 29,
443003 (2017)
340. N. Zimbovskaya and A. Nitzan
Thermally induced charge current through long molecules
J. Chem. Phys. 148, 024303 (2018) (9 pages)
https://doi.org/10.1063/1.5005057
341. Maicol A. Ochoa, N Zimbovskaya and
A. Nitzan
Quantum
thermodynamics for driven dissipative bosonic systems
Physical Review B
97, 085434 (2018)
(14 pages)
https://doi.org/10.1103/PhysRevB.97.085434
342. Galen
T. Craven and Abraham Nitzan
J. Chem. Phys 148, 044101 (2018) (13
pages)
https://doi.org/10.1063/1.5007854
343. T. Li,
A. Nitzan, M. Sukharev, T. Martinez, H.-Ta Chen, and J.
E. Subotnik
Mixed Quantum-Classical Electrodynamics: Understanding Spontaneous Decay and Zero Point Energy
Phys. Rev. A. 97, 032105
(2018)
(17 pages)
344. A. Nitzan and M. Galperin
Kinetic Schemes in Open
Interacting Systems
J. Phys. Chem. Lett., 9, 4886 - 4892 (2018)
https://doi.org/10.1021/acs.jpclett.8b01886
345.
G. T. Craven, R.
Chen and
Abraham
Nitzan
J.
Chem Phys. 149,
104103 (2018)
https://doi.org/10.1063/1.5045361
346. O.
Shein Lumbroso, L. Simine, A. Nitzan, D. Segal, and O.
Tal
Electronic noise due
to temperature difference in atomic-scale junctions
Nature, 562, 242 (2018)
https://doi.org/10.1038/s41586-018-0592-2
347. M.A.
Ochoa, W. Belzig and A. Nitzan
Simultaneous weak
measurement of non-commuting observables
Scientific Reports 8, 15871 (2018)
348. W. Dou, M.
A. Ochoa,A. Nitzan and J. E. Subotnik
A universal approach to
quantum thermodynamics in the strong coupling regime
Phys.
Rev. B, 98, 134306 (2018)
349.
T. E. Li, H-Ta Chen, M. Sukharev, A.
Nitzan and J. E. Subotnik
J.Phys.Chem.Lett. 9, 5955− 5961
(2018)
https://DOI:10.1021/acs.jpclett.8b02309
350. G. T. Craven, D. He and A. Nitzan
Electron-transfer-induced thermal and
thermoelectric rectification
Phys. Rev. Lett. 121, 247704
(2018)
351. H-Ta Chen, T. E. Li, M.
Sukharev, A. Nitzan and J. E. Subotnik
Ehrenfest+R dynamics I: A mixed
quantum-classical electrodynamics simulation of spontaneous emission
J. Chem. Phys. 150, 044102 (2019) (22 pages)
352. H-Ta Chen, T. E. Li, M.
Sukharev, A. Nitzan and J. E. Subotnik
Ehrenfest+R dynamics II: A
semiclassical QED framework for Raman scattering
J. Chem. Phys. 150, 044103 (2019)
353. Chen, Hsing-Ta; Li, Tao;
Nitzan, Abraham; Subotnik, Joseph
A Predictive Semiclassical Model
for Coherent and Incoherent Emission in the Strong Field Regime: The Mollow
Triplet Revisited
Journal
of Physical Chemistry Letter, 10, 1331- 1336(2019)
354. N. Xin, J. Guan, C. Zhou, X.
Chen, C. Gu, Y. Li, M. Ratner, A. Nitzan, J. Stoddart and X. Guo
Concepts in the design and
engineering of single-molecule electronic devices
Nature Reviews Physics, 1, 211
(2019)
Evaluation of dynamical properties of open quantum systems using the driven Liouvillevon Neumann approach: methodological considerations considerations
Molecular Physics, 1362-3028 (2019)
https://doi.org/10.1080/00268976.2019.1584338
Electron transfer in confined electromagnetic fields
J. Chem. Phys. 150, 174122 (2019)
Understanding detailed balance for an
electron-radiation system through mixed quantum-classical electrodynamics
Phys. Rev. A100, 010101(R) (2019)
358.M Gomez-Castano, A Redondo-Cubero, L Buisson, J
Luis Pau, A Mihi, S Ravaine, R A L Vallee. A Nitzan, M Sukharev
Energy Transfer and Interference by Collective Electromagnetic
Coupling
Nano Lett. 198,
5790-5795 (2019)
https://doi.org/10.1021/acs.nanolett.9b02521
359. T. E. Li, H.-Ta Chen, A. Nitzan
and J. E. Subotnik
Understanding the Nature of Mean-Field Semiclassical Light-Matter Dynamics:
An Investigation of Energy Transfer, Electron-Electron Correlations, External
Driving and Long-Time Detailed Balance
Phys. Rev. A, 100, 062509 (2019)
360. G. T. Craven and A. Nitzan
Wiedemann-Franz Law for Molecular Hopping Transport
Nano Letters, 20, 989-993 (2020)
https://doi.org/10.1021/acs.nanolett.9b04070
.
361. A. Oz, O. Hod and A. Nitzan
A Numerical Approach to
Non-Equilibrium Quantum Thermodynamics: Non-Perturbative Treatment of the
Driven Resonant Level Model based on the Driven Liouville von-Neumann Formalism
J. Chem. Theory and Comp. 16, 1232-1248 (2020)
https://doi.org/10.1021/acs.jctc.9b00999
362. H.
Kirchberg, M. Thorwart and A. Nitzan
Charge
Transfer Through Redox Molecular Junctions in Non-Equilibrated Solvents
J.
Chem. Phys. Letters, 11, 1729-1737 (2020)
https://journals.aps.org/pra/abstract/10.1103/PhysRevA.101.033831
363. N. A. Zimbovskaya
and A. Nitzan
Energy, work, entropy and heat balance in Marcus molecular
junctions
Quasiclassical Modeling of Cavity Quantum Electrodynamics
Phys. Rev. A 101, 033831
(2020)
CB1. A. Nitzan
Chemical
Instabilities as Critical Phenomena Synergetics - A
Workshsop.
Edited by H. Haken (Springer 1977) pp. 122-132.
CB2.
B. Carmeli and A. Nitzan
Time Evolution of Isolated
Non-EquilibSystems: The Pauli Master Equation Revisited.
Lecture Notes in Physics, Vol. 132: Systems Far from
Equilibrium. (Springer, Berlin 1980) pp. 306-313.
CB4.
J.I. Gersten and A. Nitzan
Electromagnetic Theory: A
Spheroidal Model.
Surface Enhanced Raman Scattering, edited by R.K. Chang and
T.E. Furtak (Plenum, N.Y. 1982) pp. 89-107.
CB5.
K.F. Freed and A. Nitzan
Theoretical Analysis of
Experimental Probes of Dynamics of Intramolecular
Vibrational Relaxation.
in: Energy Storage and Redistribution in Molecules, edited
by J. Hinge (Plenum, 1983).
CB6.
R.B. Gerber and A. Nitzan
Dynamics on Surfaces -
Concluding Remarks
in: Dynamics on Surfaces, B. Pullman, J. Jortner, A. Nitzan
and B.Gerber, (Reidel, Dordrecht, 1986).
CB7.
Z. Kotler, A. Nitzan and R. Kosloff
Quantum Dynamical Simulations
of Tunneling Systems.
in: "Tunneling", J. Jortner and B.Pullman, eds. (Reidel,
Dordrecht, 1986)
CB8.
G. Kurizki and A. Nitzan
Lasing and Stimulated Raman
Processes in Spherical and Spheroidal Droplets
in: Large Finite Systems, Edited by J. Jortner, A. Pullman
and B. Pullman(Reidel, Dordrecht, 1987).
CB9.
A. Nitzan
Small Dielectric Clusters: Size
and Shape Dependence of Photophysical and Photochemical
Properties.
in: Large Finite Systems, Edited by J. Jortner, A. Pullman
and B. Pullman (Reidel, Dordrecht, 1987).
CB10.
U.Landman,
R.N.Barnett, A.Nitzan and G.Rajagopal
Energetics and dynamics of
solvation and fission in clusters
Proceedings of the Europeen Physical Soc. Topical Conference
(Turku, Finland, 1991), edited by M. Brennen, T. L"nnroth
and F.B. Malik (Springer, Berlin, 1992), p.399
CB11.
U. Landman, R.N. Barnett, J. Jortner and A. Nitzan
Dynamics of localization and
solvation of electron in finite clusters and bulk media
in Radiation Research: A 20th Century Pe, edited by W.C.
Dewey, M. edington, R.J.M. Fry, E.J. Hall and G.F. Whitmore
(Academic Press, New York, 1992), p. 43
CB12.
E. Neria, A. Nitzan, R.N. Barnett and U. Landman
Classical and quantum
solvation
in: Inst. Phys. Conf. Ser. 126; Section VI, edited by A.
Laberau (IOP Publishing Ltd, 1992), p.513.
CB13.
A. Nitzan and Z. Schuss
Multidimensional barrier
crossing
in: The Barrier Crossing Problem, edited by G.R. Fleming and
P. H„nggi (World Scientific, 1994)
CB14.
E. Neria and A. Nitzan
Adiabatic and non-adiabatic
effects in solvation dynamics
Springer Series in Chemical Physics Vol. 55 (Ultrafast
Phenomena VIII), Edited by J.- L. Martin, A. Migus, G.A.
Mourou and A.H. Zewail. (Springer VErlag, Berlin 1993)
CB15.
E. Neria and A. Nitzan
Numerical Studies of Solvation
Dynamics
in Electrolyte Solutions in Ultrafast Phenomena in Condensed
Molecular Systems, Edited by Y Gualduel and P. Rossky, Am.
Phys. Soc (1993) .
CB16.
M.C.
Longergan, D.F. Shriver, A. Nitzan and M. Ratner
The mechanism of modeling of
conductivity in polymer electrolytes
Mat. Res. Soc. Symp. Proc. 369, 245(1995).
CB17.
V. Mujica, A. Nitzan, Yi Mao, W. Davis, M. Kemp, A. Roitberg
and M. A. Ratner
Electron transfer in molecules
and molecular wires: Geometry dependence, coherent
transfer and control
In "electron transfer: From isolated molecules to
biomolecules", Advances in Chemical Physics, Vol 107 (edited
by M. Bixon and J. Jortner), Part two, p. 403, 1999
CB18.
P. Pendzig, W. Dieterich, D. Knödler, A. nitzan, R. Olender
Charged particle dynamics in
disordered systems: Monte Carlo simulations of glassy and
polymeric electrolytes
Proceedings of the International Seminar on current
developments in disordered systems, Kurshetra, India, 1996,
edited by D. K. Chaturvedi and G.E. Murch (TransTech
Publications Switzerland, 1996)
Also: Materials-Science-Forum. vol.223-224; 1996; p.61-70.
CB19.
W. Dieterich, O. Durr, P. Pendzig and A. Nitzan
Stochastic modelling of ion
diffusion in complex systems
Proceedings of the 11th Max Born Symposium. Springer-Verlag,
Berlin, Germany; 1999; p.175-85
CB21.
O. Durr, P. Pendzig, W. Dieterich, A. Nitzan
Model studies of diffusion in
glassy and polymer ion conductors
Solid State Ionics: Science & Technology Proc. 6-th
Asian Conf. on Solid State Ionics,
edited by B. V. R. Chowdari and S. Chandra (World Scientific
Publ. Co., Singapore, 1998) p. 33
CB22.
P. Graf and A. Nitzan
Numerical simulations of
charge transport in inhomogeneous dielectric environments:
Coarse graining considerations
Multiscale Computational Methods in Chemistry and Physics,
edited by A. Brandt, J. Bernholc and K. Binder, Nato Science
Series III. Computer and Systems Sciences, Vol 177 IOS Press
(2001)
CB23.
A. Nitzan
Polar solvation dynamics:
Theory and simulations
Handbook of Solvents, edited by G. Wypych, ChemTech
Publishing (2001)
CB24.
A. Nitzan
Electronic Tunnel Factors in
Molecular Electron Transfer and Molecular Conduction
Encyclopedia of Electrochemistry, Vol 2 eidted by E. J.
Calvo, Wiley (2002).
CB25. J. Jortner, A. Nitzan and M. A. Ratner
Foundations of molecular electronics - charge transport in molecular conduction junctions
In: Introducing Molecular Electronics,
(Springer,
CB26.
B.D.
Fainberg, P. Hanggi, S. Kohler and A. Nitzan
Exciton- and Light-induced Current in Molecular Nanojunctions
American Institute of Physics Conference
Proceedings 1147,
78-86 (2009)
(ICTOPON-2009 Conference:
Transport And Optical Properties Of Nanomaterials)
CB27. A. Landau, L. Kronik and A. Nitzan
Molecular conduction junctions: Intermolecular effects
in Perspectives of Mesoscopic Physics (World Scientific, Singapore, 2010)
CB28. V. Ben-Moshe, D. N. Beratan, A. Nitzan and S. S. Skourtis
Chiral control of current transfer in molecules
CB29. M. S. Shishodia, B. D. Fainberg,
and A. Nitzan
Theory of energy transfer
interactions near sphere and nanoshell based plasmonic
nanostructure
CB30. A. Nitzan
Beyond molecular conduction:
Optical and thermal effects in molecular junctions
1.
Dynamics of Molecule Surface Interactions.
Israel Journal of Chemistry , 4th Issue of Vol. 22 (1982)
(with R.B. Gerber).
2.
Dynamics on Surfaces
Edited by B. Pullman, J. Jortner, A. Nitzan and B. Gerber
(Reidel,Dordrect,1984).
3.
Dynamics of Molecular Processes
Israel Journal of Chemistry (1989) (with R.B. Gerber).
4.
Perspectives in Chemistry
Israel Journal of Chemistry, 2003, Nos. 3-4 and 2004 Nos 1-3
Special issue in honor of Prof. Joshua Jortner with S.
Berry, O. Cheshnovski, J. Klafter and S. Rice.
5.
The Spin-Boson Problem
Chemical Physics, 2004, V 296, N2-3 (special issue, with H.
Grabert) (see Preface)