Molecular Electroics: Present And Future
DOI:
https://doi.org/10.20535/RADAP.2008.37.130-142Keywords:
молекулярна електроніка, напівпровідникові вироби, інтегральні схемиAbstract
Brief review of the literature is submitted in the field of molecular electronics, which reflects theoretical aspects of conductivity of molecules, and also their use in separate devices and integrated circuits.References
1. Введение в молекулярную электронику / Под ред. И.С. Лидоренко //1984 М. Энергоатомиздат. 320 С.
2. Electronics using hybrid-molecular and mono-molecular devices/ C. Joachim, J. Gimzewski, A. Aviram //Nature 2000. V.408, N11 3. P.541-548
3. Molecular Electronics: Science and Technology Ed. A.Aviram, M.Rattier// 1998.N.Y.Annals of the N.Y.Ac.of Sc.
4. Molecular Electronics and Molecular Electronic Devices /1993 CRC Press
5. Молекулярная электроника. Учебное пособие/И.С. Суровцев, В.Ф. Сыноров, Л.А. Битюцкая, Р.П. Пивоварова //1994. Воронежский Госуниверситет. 153 С.
6. Плотников Г.С, Зайцев В.Б. Физические основы молекулярной электроники. Учебное пособие// 1995 МГУ
7. Симон Ж., Андре Ж. Молекулярные полупроводники // 1988. М.: Мир. 342 С.
8. Ab Initio Methods for the Study of Molecular Systems for Nanometer Technology: Toward First-Principles Design of Molecular Computers. J.Seminario, J.Tour /Р.68-94
9. Towards Polysilane-Based Molecular Devices/ A.Herman [4] P.31-83
10. Theory of Electron Conduction Trough a Molecule E.Emberly, G.Kirczenow /[3]p.54-67
11. "Coulomb Staircase" at Room Temperature in a Self-Assembled Molecular Nanostructure/ R. Andres, and others//Science 1996 V.272P.1323-1325
12. Are Single Molecular Wires Conducting?/L.A. Bumm, J.J. Arnold, M.T. Cygan and others // Science 1996 V.271 N.3 P. 1705-1707
13. Controlled fabrication of metallic electrodes with atomic separation/ A.F. Morpurgo, C.M. Marcus) D.B. Robinson / Appl.Phys.Lett. 1999. V.74 N. 14 .2084-2086
14. Aviram A., Ratner M. Molecular rectifiers /Chem.Phys.Lett. 1974 V.29 P.277-283
15. Feldheim D. Flipping a molecular switch / Nature 2000 V/408 N.2 P.45-46
16. All-Polymer Field-Effect Transistor Realized by Printing Techniques / F.Garnier, R Hajaoui, A. Yassar, P.Srivastava// Science (94)v.265.P. 1684-1686
17. Logic Gates Made from Polymer Transistors and Their Use in Rinfg Oscillators/A.R. Brown, A. Pomp, C.M. Hart, D.M. de Leeuw// Science (95) V.270. P.972-974
18.Organic Transistors:Two-Dimensional Transport and Improved ElectricalCharacteristics/ A.Dodabalapur, L.Tors, H.E.Katz// Science (95)V.268.P.270-271
19. Nano-field effect transistor with organic self-assembled monolayer as gate insulator/ J.Collet, D.VuiUaume//Appl.Phys.Lett. 1998 V.73.N18.P.2681-2683
20. New Air-Stable n-Channel Organic Thin Film Transistors/ Z.Bao, A.J.Lovinger, J.Brown//J.Am.Chem.Soc. 1998.V. 120 P.207-208
21. Organic Smart Pixels / A. Dodabalapur, Z. Bao, A. Makhija and others// Appl.Phys.Lett. 1998. V.73.N.2.P.142-144
22. Organic complementary ring oscillators/Y. Linn, A. Dodabalapur, R. Sarpeshkar and others/ Appl.Phys.Lett.!999.V.74 N.18 P.2714-2716
23. Low-voltage 0.1 im organic transistors and complementary inverter circuits fabricated with low-cost form Of near-field photolithography /J.A.Rogers, A.Dodabalapur, Z.Bao, E.Katz//Appl.Phys.Lett. 1999. V.75 N.7 P. 1010-1012
24 Organic-Inorganic Hybrid Materials as Semiconducting Channels in Thin-Film Field-Effect Transistors /C.RKagan, D.B.Mitzi, C.D.Dimitrakopoulos // Science 1999 V.286 P.945-947
25. Low-cost all-polymer integrated circuits/C.J.Drury, C.M.J.Mutsaers, CM.Hart and others/Appl.Phys.Lett. 1998 V.73.N.1 P. 108-110
26. Cheap and cheerful circuits / D. Voss //Nature 2000 V.407 P.442-444
27. High-perfomance all-polymer integrated circuits/G.H.Gelinck, T.C.T.Geuns, D.M. de Leeuw // Appl.Phys.Lett. 2000 V.77 N.10 P. 1487-1489
28. Large-scale complementary integrated circuits based on organic transistors / .Crown, A.Dodabalapur, Y.-Y.Lin and others// Nature 2000 V.403 N.3 P.521-523
29. New Printing Technologies Raise Hopes for Cheap Plastic Electronics /B.G.Levi //Physics Today 2001 N.2 P.20-23
30. Overview of Nanoelectronic Devices /D.Goldhaber-Gordon, M.S. Montemerlo, J.C.Love and others // Proc. of IEEE 1997 V.85.N.4. P.521-540
31.Technology Roadmap for Nanoelectronics /Ed/ R.Compano //2000 European Comissfon 1ST programme Future and Emerging Technologies 104 P.
2. Electronics using hybrid-molecular and mono-molecular devices/ C. Joachim, J. Gimzewski, A. Aviram //Nature 2000. V.408, N11 3. P.541-548
3. Molecular Electronics: Science and Technology Ed. A.Aviram, M.Rattier// 1998.N.Y.Annals of the N.Y.Ac.of Sc.
4. Molecular Electronics and Molecular Electronic Devices /1993 CRC Press
5. Молекулярная электроника. Учебное пособие/И.С. Суровцев, В.Ф. Сыноров, Л.А. Битюцкая, Р.П. Пивоварова //1994. Воронежский Госуниверситет. 153 С.
6. Плотников Г.С, Зайцев В.Б. Физические основы молекулярной электроники. Учебное пособие// 1995 МГУ
7. Симон Ж., Андре Ж. Молекулярные полупроводники // 1988. М.: Мир. 342 С.
8. Ab Initio Methods for the Study of Molecular Systems for Nanometer Technology: Toward First-Principles Design of Molecular Computers. J.Seminario, J.Tour /Р.68-94
9. Towards Polysilane-Based Molecular Devices/ A.Herman [4] P.31-83
10. Theory of Electron Conduction Trough a Molecule E.Emberly, G.Kirczenow /[3]p.54-67
11. "Coulomb Staircase" at Room Temperature in a Self-Assembled Molecular Nanostructure/ R. Andres, and others//Science 1996 V.272P.1323-1325
12. Are Single Molecular Wires Conducting?/L.A. Bumm, J.J. Arnold, M.T. Cygan and others // Science 1996 V.271 N.3 P. 1705-1707
13. Controlled fabrication of metallic electrodes with atomic separation/ A.F. Morpurgo, C.M. Marcus) D.B. Robinson / Appl.Phys.Lett. 1999. V.74 N. 14 .2084-2086
14. Aviram A., Ratner M. Molecular rectifiers /Chem.Phys.Lett. 1974 V.29 P.277-283
15. Feldheim D. Flipping a molecular switch / Nature 2000 V/408 N.2 P.45-46
16. All-Polymer Field-Effect Transistor Realized by Printing Techniques / F.Garnier, R Hajaoui, A. Yassar, P.Srivastava// Science (94)v.265.P. 1684-1686
17. Logic Gates Made from Polymer Transistors and Their Use in Rinfg Oscillators/A.R. Brown, A. Pomp, C.M. Hart, D.M. de Leeuw// Science (95) V.270. P.972-974
18.Organic Transistors:Two-Dimensional Transport and Improved ElectricalCharacteristics/ A.Dodabalapur, L.Tors, H.E.Katz// Science (95)V.268.P.270-271
19. Nano-field effect transistor with organic self-assembled monolayer as gate insulator/ J.Collet, D.VuiUaume//Appl.Phys.Lett. 1998 V.73.N18.P.2681-2683
20. New Air-Stable n-Channel Organic Thin Film Transistors/ Z.Bao, A.J.Lovinger, J.Brown//J.Am.Chem.Soc. 1998.V. 120 P.207-208
21. Organic Smart Pixels / A. Dodabalapur, Z. Bao, A. Makhija and others// Appl.Phys.Lett. 1998. V.73.N.2.P.142-144
22. Organic complementary ring oscillators/Y. Linn, A. Dodabalapur, R. Sarpeshkar and others/ Appl.Phys.Lett.!999.V.74 N.18 P.2714-2716
23. Low-voltage 0.1 im organic transistors and complementary inverter circuits fabricated with low-cost form Of near-field photolithography /J.A.Rogers, A.Dodabalapur, Z.Bao, E.Katz//Appl.Phys.Lett. 1999. V.75 N.7 P. 1010-1012
24 Organic-Inorganic Hybrid Materials as Semiconducting Channels in Thin-Film Field-Effect Transistors /C.RKagan, D.B.Mitzi, C.D.Dimitrakopoulos // Science 1999 V.286 P.945-947
25. Low-cost all-polymer integrated circuits/C.J.Drury, C.M.J.Mutsaers, CM.Hart and others/Appl.Phys.Lett. 1998 V.73.N.1 P. 108-110
26. Cheap and cheerful circuits / D. Voss //Nature 2000 V.407 P.442-444
27. High-perfomance all-polymer integrated circuits/G.H.Gelinck, T.C.T.Geuns, D.M. de Leeuw // Appl.Phys.Lett. 2000 V.77 N.10 P. 1487-1489
28. Large-scale complementary integrated circuits based on organic transistors / .Crown, A.Dodabalapur, Y.-Y.Lin and others// Nature 2000 V.403 N.3 P.521-523
29. New Printing Technologies Raise Hopes for Cheap Plastic Electronics /B.G.Levi //Physics Today 2001 N.2 P.20-23
30. Overview of Nanoelectronic Devices /D.Goldhaber-Gordon, M.S. Montemerlo, J.C.Love and others // Proc. of IEEE 1997 V.85.N.4. P.521-540
31.Technology Roadmap for Nanoelectronics /Ed/ R.Compano //2000 European Comissfon 1ST programme Future and Emerging Technologies 104 P.
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Published
2013-07-15
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Руденко, Н. and Силакова, Т. (2013) “Molecular Electroics: Present And Future”, Visnyk NTUU KPI Seriia - Radiotekhnika Radioaparatobuduvannia, 0(37), pp. 130-142. doi: 10.20535/RADAP.2008.37.130-142.
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