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Title:	Optimization of an organic memristor as an adaptive memory element
Source:	Journal of Applied Physics [0021-8979] Berzina, Tatiana yr:2009

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description	1.	Berzina, T. "Electrochemical control of the conductivity in an organic memristor: A time-resolved x-ray fluorescence study of ionic drift as a function of the applied voltage." ACS applied materials & interfaces 1.10 (2009): 2115-8.
description	2.	CHUA, L. "MEMRISTOR - MISSING CIRCUIT ELEMENT." IEEE transactions on circuit theory CT18.5 (1971): 507-.
description	3.	Barman, S. "Conducting polymer memory devices based on dynamic doping." Journal of the American Chemical Society 130.33 (2008): 11073-11081.
description	4.	Wang, X. "Spintronic memristor through spin-thorque-induced magnetization motion." IEEE electron device letters 30.3 (2009): 294-297.
description	5.	MCDOWELL, Mark F. "CROSS-RELAXATION AND ATOMIC MOTION IN LINBO2." Physical review. B, Condensed matter 50.21 (1994): 15764-15774.
description	6.	Williams, R. "How we found the missing memristor." IEEE spectrum 45.12 (2008): 28-35.
description	7.	Chua, L.O. O. "Memristive devices and systems." Proceedings of the IEEE 64.2 (1976): 209-223.
description	8.	NOVIKOV, DL. "ELECTRONIC-STRUCTURE AND ELECTRON-PHONON INTERACTIONS IN LAYERED LIXNBO2 AND NAXNBO2." Physical review. B, Condensed matter 49.22 (1994): 15830-15835.
description	9.	Williams, R Stanley S. "The missing memristor found." Nature 453.7191 (2008): 80-3.
description	10.	Chua, Leon O. "Nonlinear circuit foundations for nanodevices, part I: the four-element torus." Proceedings of the IEEE 91.11 (2003): 1830-1859.
description	11.	Wu, J. "Solid-State Electrochemistry in Molecule/TiO2 Molecular Heterojunctions as the Basis of the TiO2 "Memristor"." Journal of the Electrochemical Society 156.1 (2009): 29-37.
description	12.	KAHN, D. "Difference-Equation Model for Ionic Conductivity. I. Step Voltage Response." The Journal of chemical physics 46.11 (1967): 4434-.
description	13.	Duan, S. "Memristor-based RRAM with applications." Science China. Information sciences 55.6 (2012): 1-15.
description	14.	Thakoor, S. "Solid‐state thin‐film memistor for electronic neural networks." Journal of applied physics 67.6 (1990): 3132-3135.
description	15.	Gergel-Hackett, N. "A Flexible Solution-Processed Memristor." IEEE electron device letters 30.7 (2009): 706-708.
description	16.	Yang, J. "Memristive switching mechanism for metal/oxide/metal nanodevices." Nature nanotechnology 3.7 (2008): 429-33.
description	17.	Chua, L. "Memristor-the missing circuit element." IEEE transactions on circuit theory CT-18.5 (1971): 507-519.
description	18.	Bergren, A. "Molecular electronics using diazonium-derived adlayers on carbon with Cu top contacts: Critical analysis of metal oxides and filaments." Journal of physics. Condensed matter 20.37 (2008): 374117-.
description	19.	Jo, Sung H. "Nanoscale Memristor Device as Synapse in Neuromorphic Systems." Nano letters 10.4 (2010): 1297-1301.
description	20.	Greenlee, Jordan D. "In-situ oxygen x-ray absorption spectroscopy investigation of the resistance modulation mechanism in LiNbO2 memristors." Applied physics letters 100.18 (2012): 182106-.