神马文学网文献目录
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1. Gas, liquid and enantiomeric separations using polyaniline
Kaner RB
SYNTHETIC METALS 125 (1): 65-71 NOV 2 2001
http://www.sciencedirect.com/science?_ob=PublicationURL&_tockey=%23TOC%235611% 232001%23998749998%23277936%23FLA%23&_cdi=5611&_pubType=J&view=c&_auth=y&_acct=C000050602&_version=1&_urlVersion=0&_userid=1999655&md5=ae44875fd8da34894a15264eea8e3ded
2. Influence of water on the chirality of camphorsulfonic acid-doped polyaniline
Egan V, Bernstein R, Hohmann L, et al.
CHEMICAL COMMUNICATIONS (9): 801-802 2001
3. Nanofibers of self-doped polyaniline
Yang CH, Chih YK, Cheng HE, et al.
POLYMER 46 (24): 10688-10698 NOV 21 2005
4.. A simple approach to control the growth of polyaniline nanofibers
Chiou NR, Epstein AJ
SYNTHETIC METALS 153 (1-3): 69-72 Part 2 Sp. Iss. SI SEP 21 2005
5. Morphological and electrical characteristics of polyaniline nanofibers
King RCY, Roussel F
SYNTHETIC METALS 153 (1-3): 337-340 Part 2 Sp. Iss. SI SEP 21 2005
6. Nanoparticle formation by highly diffusion-controlled emulsion polymerisation
Sajjadi S, Jahanzad F
CHEMICAL ENGINEERING SCIENCE 61 (9): 3001-3008 Sp. Iss. SI MAY 2006
7. A mild, copper catalyzed route to conducting polyaniline
H. V. Rasika Dias, Xiaoyu Wang, R. M. Gamini Rajapakse, Ronald L. Elsenbaumer,
Chem. Commun., 2006, (9),976-978
Abstract: The aniline dimer, N-(4-aminophenyl)aniline has been polymerized cleanly under mild conditions to obtain an emeraldine base form of polyaniline using [MeB(3-(Mes)Pz)3]CuCl as the catalyst and H2O2 as the oxidant, while the subsequent acidification of the emeraldine base gives the conducting emeraldine salt form of polyaniline.
8. Stable aqueous dispersions of polyaniline
N. Gospodinova, P. Mokreva, L. Terlemezyan,
J. Chem. Soc., Chem. Commun., 1992, (13),923-924
9. Molecularly imprinted polymer sensor arrays
Nathaniel T. Greene, Stephen L. Morgan, Ken D. Shimizu,
Chem. Commun., 2004, (10),1172-1173
10 Chromatic reaction of polyaniline film and its characterization
Rongzhong Jiang and Shaojun Dong
J. Chem. Soc., Faraday Trans. 1, 1989, 85, 1585 - 1597,
Abstract: Chemical oxidation in acidic aqueous solution leads to multiple colour changes from yellow, green, blue, purple to red at a polyaniline film-coated platinum surface, which has been compared with an electrochromic reaction reported previously and characterized by absorption spectroscopy on a transparent SnO2 glass surface, ESCA spectroscopy, cyclic voltammetry, ring–disk voltammetry and potentiometry on a platinum electrode. The multiple colour changes can be applied to analysis as a sensitive colour indicator. The polymerization mechanism of aniline and the redox mechanism of polyaniline film, which are concerned with chromatic reaction, were discussed with a stereochemical approach. It is observed that the colour change is dependent on the hydrogen atom number linked to the nitrogen atoms in polyaniline backbone, which unified the acid–base and the redox colour change mechanisms of polyaniline.
11. How nucleation affects the aggregation of nanoparticles
Dan Li, Richard B. Kaner,
J. Mater. Chem., 2007, (22),2279-2282
Using the conducting polymer, polyaniline, as a prime example, this article highlights the important role of nucleation on the aggregation of nanoparticles. We demonstrate that during synthesis, irreversible aggregation of nanoparticles can be triggered by heterogeneous nucleation on pre-formed particles. Aggregation can be prevented by mediating the nucleation behavior via experimental conditions including mechanical agitation, reaction temperature and the use of additives. These findings may provide a valuable guide in the synthesis of many other nanostructures.
12. A general strategy for nanocrystal synthesis
Xun Wang1,2, Jing Zhuang1,2, Qing Peng1,2 & Yadong Li1,2
Nature,437, 121-124 (1 September 2005
http://www.nature.com/nature/journal/v437/n7055/abs/nature03968.html
13. Assembly of polyaniline nanostructures
Wang JX, Wang JS, Zhang XY, et al
MACROMOLECULAR RAPID COMMUNICATIONS 28 (1): 84-87 JAN 5 2007
13.1
Surface Polymerization and Precipitation Polymerization of Aniline in the Presence of Sodium Tungstate
I. Sapurina, S. Fedorova, J. Stejskal, J.
Langmuir 2003, 19, 7413-7416.
13.1.1
In-situ polymerized polyaniline films 3. Film formation
Sapurina, I.; Riede, A.; Stejskal, J.
Synth. Met. 2001, 123, 503-507.
14. About supramolecular assemblies of pi-conjugated systems
Hoeben FJM, Jonkheijm P, Meijer EW, et al.
CHEMICAL REVIEWS 105 (4): 1491-1546 APR 2005
15. Supramolecular electronics; nanowires from self-assembled pi-conjugated systems
Schenning APHJ, Meijer EW
CHEMICAL COMMUNICATIONS (26): 3245-3258 2005
16. A High-Mobility Electron-Transport Polymer withBroad Absorption and Its Use in Field-Effect Transistors andAll-Polymer Solar Cells
Zhan, X.; Tan, Z.; Domercq, B.; An, Z.; Zhang, X.; Barlow, S.; Li, Y.; Zhu, D.; Kippelen, B.; Marder, S. R.
J. Am. Chem. Soc.;(Communication); 2007;129(23);7246-7247. DOI:10.1021/ja071760d
17. Correlation between One-Directional Helical Growth of Polyaniline and Its Optical Activity
Li, J.; Zhu, L.; Luo, W.; Liu, Y.; Tang, H.
J. Phys. Chem. C.;(Article); 2007;111(23);8383-8388.
18. Self-Assembled Polyaniline Nanofibers/Nanotubes
Chiou, N.-R.; Lee, L. J.; Epstein, A. J.
Chem. Mater.;(Communication); 2007;ASAP Article; DOI:10.1021/cm070847v
19. Synthesis of needle-like polyanilines
Journal of Vinyl and Additive Technology
Volume 13, Issue 2, Date: June 2007, Pages: 76-86
Woo-Hyuk Jung, Young Moo Lee, Stephen P. McCarthy
20.
Nanoparticle Assembly and Transport at Liquid-Liquid Interfaces
Y. Lin,1H. Skaff,1T. Emrick,1*A. D. Dinsmore,2*T. P. Russell1* Science 10 January 2003:
Vol. 299. no. 5604, pp. 226 - 229
DOI: 10.1126/science.1078616
1
Kaner RB
SYNTHETIC METALS 125 (1): 65-71 NOV 2 2001
http://www.sciencedirect.com/science?_ob=PublicationURL&_tockey=%23TOC%235611% 232001%23998749998%23277936%23FLA%23&_cdi=5611&_pubType=J&view=c&_auth=y&_acct=C000050602&_version=1&_urlVersion=0&_userid=1999655&md5=ae44875fd8da34894a15264eea8e3ded
2. Influence of water on the chirality of camphorsulfonic acid-doped polyaniline
Egan V, Bernstein R, Hohmann L, et al.
CHEMICAL COMMUNICATIONS (9): 801-802 2001
3. Nanofibers of self-doped polyaniline
Yang CH, Chih YK, Cheng HE, et al.
POLYMER 46 (24): 10688-10698 NOV 21 2005
4.. A simple approach to control the growth of polyaniline nanofibers
Chiou NR, Epstein AJ
SYNTHETIC METALS 153 (1-3): 69-72 Part 2 Sp. Iss. SI SEP 21 2005
5. Morphological and electrical characteristics of polyaniline nanofibers
King RCY, Roussel F
SYNTHETIC METALS 153 (1-3): 337-340 Part 2 Sp. Iss. SI SEP 21 2005
6. Nanoparticle formation by highly diffusion-controlled emulsion polymerisation
Sajjadi S, Jahanzad F
CHEMICAL ENGINEERING SCIENCE 61 (9): 3001-3008 Sp. Iss. SI MAY 2006
7. A mild, copper catalyzed route to conducting polyaniline
H. V. Rasika Dias, Xiaoyu Wang, R. M. Gamini Rajapakse, Ronald L. Elsenbaumer,
Chem. Commun., 2006, (9),976-978
Abstract: The aniline dimer, N-(4-aminophenyl)aniline has been polymerized cleanly under mild conditions to obtain an emeraldine base form of polyaniline using [MeB(3-(Mes)Pz)3]CuCl as the catalyst and H2O2 as the oxidant, while the subsequent acidification of the emeraldine base gives the conducting emeraldine salt form of polyaniline.
8. Stable aqueous dispersions of polyaniline
N. Gospodinova, P. Mokreva, L. Terlemezyan,
J. Chem. Soc., Chem. Commun., 1992, (13),923-924
9. Molecularly imprinted polymer sensor arrays
Nathaniel T. Greene, Stephen L. Morgan, Ken D. Shimizu,
Chem. Commun., 2004, (10),1172-1173
10 Chromatic reaction of polyaniline film and its characterization
Rongzhong Jiang and Shaojun Dong
J. Chem. Soc., Faraday Trans. 1, 1989, 85, 1585 - 1597,
Abstract: Chemical oxidation in acidic aqueous solution leads to multiple colour changes from yellow, green, blue, purple to red at a polyaniline film-coated platinum surface, which has been compared with an electrochromic reaction reported previously and characterized by absorption spectroscopy on a transparent SnO2 glass surface, ESCA spectroscopy, cyclic voltammetry, ring–disk voltammetry and potentiometry on a platinum electrode. The multiple colour changes can be applied to analysis as a sensitive colour indicator. The polymerization mechanism of aniline and the redox mechanism of polyaniline film, which are concerned with chromatic reaction, were discussed with a stereochemical approach. It is observed that the colour change is dependent on the hydrogen atom number linked to the nitrogen atoms in polyaniline backbone, which unified the acid–base and the redox colour change mechanisms of polyaniline.
11. How nucleation affects the aggregation of nanoparticles
Dan Li, Richard B. Kaner,
J. Mater. Chem., 2007, (22),2279-2282
Using the conducting polymer, polyaniline, as a prime example, this article highlights the important role of nucleation on the aggregation of nanoparticles. We demonstrate that during synthesis, irreversible aggregation of nanoparticles can be triggered by heterogeneous nucleation on pre-formed particles. Aggregation can be prevented by mediating the nucleation behavior via experimental conditions including mechanical agitation, reaction temperature and the use of additives. These findings may provide a valuable guide in the synthesis of many other nanostructures.
12. A general strategy for nanocrystal synthesis
Xun Wang1,2, Jing Zhuang1,2, Qing Peng1,2 & Yadong Li1,2
Nature,437, 121-124 (1 September 2005
http://www.nature.com/nature/journal/v437/n7055/abs/nature03968.html
13. Assembly of polyaniline nanostructures
Wang JX, Wang JS, Zhang XY, et al
MACROMOLECULAR RAPID COMMUNICATIONS 28 (1): 84-87 JAN 5 2007
13.1
Surface Polymerization and Precipitation Polymerization of Aniline in the Presence of Sodium Tungstate
I. Sapurina, S. Fedorova, J. Stejskal, J.
Langmuir 2003, 19, 7413-7416.
13.1.1
In-situ polymerized polyaniline films 3. Film formation
Sapurina, I.; Riede, A.; Stejskal, J.
Synth. Met. 2001, 123, 503-507.
14. About supramolecular assemblies of pi-conjugated systems
Hoeben FJM, Jonkheijm P, Meijer EW, et al.
CHEMICAL REVIEWS 105 (4): 1491-1546 APR 2005
15. Supramolecular electronics; nanowires from self-assembled pi-conjugated systems
Schenning APHJ, Meijer EW
CHEMICAL COMMUNICATIONS (26): 3245-3258 2005
16. A High-Mobility Electron-Transport Polymer withBroad Absorption and Its Use in Field-Effect Transistors andAll-Polymer Solar Cells
Zhan, X.; Tan, Z.; Domercq, B.; An, Z.; Zhang, X.; Barlow, S.; Li, Y.; Zhu, D.; Kippelen, B.; Marder, S. R.
J. Am. Chem. Soc.;(Communication); 2007;129(23);7246-7247. DOI:10.1021/ja071760d
17. Correlation between One-Directional Helical Growth of Polyaniline and Its Optical Activity
Li, J.; Zhu, L.; Luo, W.; Liu, Y.; Tang, H.
J. Phys. Chem. C.;(Article); 2007;111(23);8383-8388.
18. Self-Assembled Polyaniline Nanofibers/Nanotubes
Chiou, N.-R.; Lee, L. J.; Epstein, A. J.
Chem. Mater.;(Communication); 2007;ASAP Article; DOI:10.1021/cm070847v
19. Synthesis of needle-like polyanilines
Journal of Vinyl and Additive Technology
Volume 13, Issue 2, Date: June 2007, Pages: 76-86
Woo-Hyuk Jung, Young Moo Lee, Stephen P. McCarthy
20.
Nanoparticle Assembly and Transport at Liquid-Liquid Interfaces
Y. Lin,1H. Skaff,1T. Emrick,1*A. D. Dinsmore,2*T. P. Russell1* Science 10 January 2003:
Vol. 299. no. 5604, pp. 226 - 229
DOI: 10.1126/science.1078616
1