References
References
- Baughman , RH , Zakhidov , AA and de Heer , WA . 2002 . Carbon nanotubes–The route towards applications . Science , 297 : 787
- Ajayan PM Zhou O Applications of Carbon Nanotubes Carbon Nanotubes Synthesis, Structure, Properties and Applications Dresselhaus MS Dresselhaus G Avouris P 391 425 Springer-Verlag 2001
- Wagner , HD . 2002 . Nanotube-polymer adhesion: a mechanics approach . Chem. Phys. Lett. , 361 : 57
- Lau , K-T . 2003 . Interfacial bonding characteristics of nanotube/polymer composites . Chem. Phys. Lett. , 370 : 399
- Lordi , V and Yao , N . 2000 . Molecular mechanics of binding in carbon-nanotube-polymer composites . J. Mater. Res. , 15 : 2770
- Liao , K and Li , S . 2001 . Interfacial characteristics of a carbon nanotube–polystyrene composite system . Appl. Phys. Lett. , 79 : 4225
- Xu , X , Thwe , MM , Shearwood , C and Liao , K . 2002 . Mechanical properties and interfacial characteristics of carbon-nanotube-reinforced epoxy thin films . Appl. Phys. Lett. , 81 : 2833
- Frankland , SJV , Caglar , A , Brenner , DW and Griebel , M . 2002 . Molecular simulation of the influence of chemical cross-links on the shear strength of carbon nanotube–polymer interfaces . J. Phys. Chem. , 106 : 3046
- Frankland , SJV and Harik , VM . 2003 . Analysis of carbon nanotube pull-out from a polymer matrix . Surf. Sci. , 525 : L103
- Frankland , SJV , Harik , VM , Odegard , GM , Brenner , DW and Gates , TS . 2003 . The stress-strain behavior of polymer-nanotube composites from molecular dynamics simulations . Comp. Sci. Tech. , 63 : 1655
- Hu , Y , Jang , I and Sinnott , SB . 2003 . Modification of carbon nanotube polymer-matrix composites through polyatomic-ion beam deposition: predictions from molecular dynamics simulations . Comp. Sci. Tech. , 63 : 1663
- Groot , RD and Warren , PB . 1997 . Dissipative particle dynamics: bridging the gap between atomistic and mesoscopic simulation . J. Chem. Phys. , 107 : 4423
- Flory PJ Principles of Polymer Chemistry, Cornell University Press 1953
- Doi M Introduction to Polymer Physics Chapter 2 Clarendon Press Oxford 1996
- Maiti , A and McGrother , S . 2004 . Bead-bead interaction parameters in Dissipative Particle Dynamics (DPD): relation to bead-size, solubility parameter, and surface tension . J. Chem. Phys. , 120 : 1594
- Hildebrand JH Scott RL The Solubility of Non-electrolytes, Reinhold 1949
- Case , F and Honeycutt , JD . 1994 . Will my polymers mix? . Trends Polym. Sci. , 2 : 259
- Bicerano J Prediction of Polymer Properties 2nd Ed. 108 136 Marcel Dekker Inc. 1996 as implemented in Accelrys' SYNTHIA code†. The polymer solubility parameters of figure 1 were computed as an average of the Fedors and van Krevelen solubility parameters as defined in this reference
- Rappe , AK , Casewit , CJ , Colwell , KS , Goddard , WA III and Skiff , WM . 1992 . UFF, a full periodic table force field for molecular mechanics and molecular dynamics simulations . J. Am. Chem. Soc. , 114 : 10024
- Mayo , SL , Olafson , BD and Goddard , WA III . 1990 . DREIDING: A generic force field . J. Phys. Chem. , 94 : 8897
- Sun , H . 1998 . COMPASS: an ab initio Force-field optimized for condensed-phase applications—Overview with details on alkane and benzene compounds . J. Phys. Chem. , 102 : 7338
- Yao , N and Lordi , V . 1998 . Young's modulus of single-walled carbon nanotubes . J. Appl. Phys. , 84 : 1939
- Elliott JA et al. Collapse of single-wall carbon nanotubes is diameter dependent Phys. Rev. Lett. 92 095501 2004
- in het Panhuis M et al. Selective interaction in a Polymer—single wall carbon nanotube composite J. Phys. Chem. B 109 478 2003
- Dalton , AB , Stephan , C , Coleman , JN , McCarthy , B , Ajayan , PM , Lefrant , S , Bernier , P , Blau , WJ and Byrne , HJ . 2000 . Selective interaction of a semiconjugated organic polymer with single-wall nanotubes . J. Phys. Chem. B , 104 : 10012
- Mark JE Physical Properties of Polymer Handbook, AIP Press New York 1996
- Barton AFM Handbook of Solubility Parameters, CRC Press 1983
- Jia Z et al. Study on poly (methyl methacrylate)/carbon nanotubecomposites Mater. Sci. Eng. A271 395 1999
- de la Chappelle et al. Raman characterization of singlewalled carbon nanotubes and PMMA-nanotubes composites Syn. Metals 103 2510 1999
- Haggenmueller , R , Gommans , HH , Rinzler , AG , Fischer , JE and Winey , KI . 2000 . Aligned single-wall carbon nanotubes in composites by melt processing methods . Chem. Phys. Lett. , 330 : 219
- Philip , B , Abraham , JK , Chandrasekhar , A and Varadan , VK . 2003 . Carbon nanotube/PMMA composite thin films for gas-sensing applications . Smart Mater. Structs. , 12 : 935
- Du , F , Fischer , JE and Winey , KI . 2003 . Coagulation method for preparing single-walled carbon nanotube/poly(methyl methacrylate) composites and their modulus, electrical conductivity, and thermal stability . J. Polymer Sci. B , 41 : 3333
- Rege , K , Raravikar , NR , Kim , D-Y , Schadler , LS , Ajayan , PM and Dordick , JS . 2003 . Enzyme-polymer-single walled carbon nanotube composites as biocatalytic films . Nano Lett. , 3 : 829
- Thostenson , ET and Chou , T-W . 2002 . Aligned multi-walled carbon nanotube-reinforced composites: processing and mechanical characterization . J. Phys. D , 35 : L77
- Lees AW Edwards SF The computer study of transport processes under extreme conditions J. Phys. C 5 15 1921 1972 In DPD shear is applied by employing Lees-Edwards sliding brick boundary condition
- Gusev , AA . 2001 . Numerical identification of the potential of whisker and platelet filled polymers . Macromolecules , 34 : 3081
- Chen , XL and Liu , Y . 2004 . Square representative volume elements for evaluating the effective material properties of carbon nanotube-based composites . Computat. Mats. Sci. , 29 : 1
- Espaňol , P and Warren , P . 1995 . Statistical mechanics of dissipative particle dynamics . Europhys. Lett. , 30 : 191
- Wijmans , CM , Smit , B and Groot , RD . 2001 . Phase behavior of monomeric mixtures and polymer solutions with soft interaction potentials . J. Chem. Phys. , 114 : 7644
- Shillcock , JC and Lipowsky , R . 2002 . Equilibrium structure and lateral stress distribution of amphiphilic bilayers from dissipative particle dynamics simulations . J. Chem. Phys. , 117 : 5048
- Groot , RD and Rabone , KL . 2001 . Mesoscopic simulation of cell membrane damage, morphology change and rupture by nonionic surfactants . Biophys. J. , 81 : 725
- Groot , RD . 2003 . Electrostatic interactions in dissipative particle dynamics—simulation of polyelectrolytes and anionic surfactants . J. Chem. Phys. , 118 : 11265