How to cite this paper
Abdelrahman, A., Erchiqui, F & Mourad, N. (2022). Enhancement the conductivity and flexibility of fabricated chip comprise from nano graphene metals assembled on polymeric PEI- PDMS matrix.Engineering Solid Mechanics, 10(3), 215-226.
Refrences
Arnold, C. A., Summers, J. D., Chen, Y. P., Bott, R. H., Chen, D., & McGrath, J. E. (1989). Structure-property behaviour of soluble polyimide-polydimethylsiloxane segmented copolymers. Polymer, 30(6), 986-995.
Baughman, R. H., Zakhidov, A. A., & De Heer, W. A. (2002). Carbon nanotubes--the route toward applications. science, 297(5582), 787-792.
Biswas, A., Bayer, I. S., Biris, A. S., Wang, T., Dervishi, E., & Faupel, F. (2012). Advances in top–down and bottom–up surface nanofabrication: Techniques, applications & future prospects. Advances in colloid and interface science, 170(1-2), 2-27.
Borah, D., Ozmen, M., Rasappa, S., Shaw, M. T., Holmes, J. D., & Morris, M. A. (2013). Molecularly functionalized silicon substrates for orientation control of the microphase separation of PS-b-PMMA and PS-b-PDMS block copolymer systems. Langmuir, 29(9), 2809-2820.
Cai, L., Zhang, S., Miao, J., Yu, Z., & Wang, C. (2016). Fully printed stretchable thin-film transistors and integrated logic circuits. Acs Nano, 10(12), 11459-11468.
Chen, G., Pei, X., Liu, J., & Fang, X. (2013). Synthesis and properties of transparent polyimides derived from trans-and cis-1, 4-bis (3, 4-dicarboxyphenoxy) cyclohexane dianhydrides. Journal of Polymer Research, 20(6), 1-11.
Chen, M., Zhang, L., Duan, S., Jing, S., Jiang, H., & Li, C. (2014). Highly stretchable conductors integrated with a conductive carbon nanotube/graphene network and 3D porous poly (dimethylsiloxane). Advanced Functional Materials, 24(47), 7548-7556.
Coleman, J. N., Khan, U., Blau, W. J., & Gun’ko, Y. K. (2006). Small but strong: a review of the mechanical properties of carbon nanotube–polymer composites. Carbon, 44(9), 1624-1652.
Darling, S. B. (2007). Directing the self-assembly of block copolymers. Progress in Polymer Science, 32(10), 1152-1204.
Freebody, M. (Ed.). (2011). Preserving Moore's law pushes lithography to its limits. Photonics Spectra, 45(5), 45-47.
Fu, Y., & Manthiram, A. (2012). Enhanced cyclability of lithium–sulfur batteries by a polymer acid-doped polypyrrole mixed ionic–electronic conductor. Chemistry of Materials, 24(15), 3081-3087.
Gaynor, W., Burkhard, G. F., McGehee, M. D., & Peumans, P. (2011). Smooth nanowire/polymer composite transparent electrodes. Advanced Materials, 23(26), 2905-2910.
Ghoshal, T., Senthamaraikannan, R., Shaw, M. T., Holmes, J. D., & Morris, M. A. (2012). “In situ” hard mask materials: a new methodology for creation of vertical silicon nanopillar and nanowire arrays. Nanoscale, 4(24), 7743-7750.
Hamciuc, E., Hamciuc, C., & Cazacu, M. (2009). Comparative evaluation of some properties of two poly (ether-imide) thin films with/without fluorine in the structure. Rev Roum Chim, 54, 1007-1013.
Hamra, A. A. B., Lim, H. N., Hafiz, S. M., Kamaruzaman, S., Rashid, S. A., Yunus, R., ... & Huang, N. M. (2018). Performance stability of solid-state polypyrrole-reduced graphene oxide-modified carbon bundle fiber for supercapacitor application. Electrochimica Acta, 285, 9-15.
Hirai, T., Leolukman, M., Liu, C. C., Han, E., Kim, Y. J., Ishida, Y., ... & Gopalan, P. (2009). One‐step direct‐patterning template utilizing self‐assembly of POSS‐containing block copolymers. Advanced Materials, 21(43), 4334-4338.
Hwang, J., Jang, J., Hong, K., Kim, K. N., Han, J. H., Shin, K., & Park, C. E. (2011). Poly (3-hexylthiophene) wrapped carbon nanotube/poly (dimethylsiloxane) composites for use in finger-sensing piezoresistive pressure sensors. Carbon, 49(1), 106-110.
Jiao, J., Zhang, H., Yu, L., Wang, X., & Wang, R. (2012). Dispersion of carbon nanotubes with the aid of surface-active ionic liquids 1-dodecyl-3-methyl-pyrrolidinium bromide. Journal of Molecular Liquids, 171, 6-10.
Kazaoui, S., Minami, N., Nalini, B., Kim, Y., & Hara, K. (2005). Near-infrared photoconductive and photovoltaic devices using single-wall carbon nanotubes in conductive polymer films. Journal of applied physics, 98(8), 084314.
Kim, D., & Yun, K. S. (2013). Patterning of carbon nanotube films on PDMS using SU-8 microstructures. Microsystem technologies, 19(5), 743-748.
Kim, H. S., Waqued, S. C., Nodurft, D. T., Devarenne, T. P., Yakovlev, V. V., & Han, A. (2017). Raman spectroscopy compatible PDMS droplet microfluidic culture and analysis platform towards on-chip lipidomics. Analyst, 142(7), 1054-1060.
Kim, J. U., Lee, S., & Kim, T. I. (2016). Recent advances in unconventional lithography for challenging 3D hierarchical structures and their applications. Journal of Nanomaterials, 2016.
Kim, K. S., Zhao, Y., Jang, H., Lee, S. Y., Kim, J. M., Kim, K. S., ... & Hong, B. H. (2009). Large-scale pattern growth of graphene films for stretchable transparent electrodes. nature, 457(7230), 706-710.
Krea, M., Roizard, D., Moulai-Mostefa, N., & Sacco, D. (2004). New copolyimide membranes with high siloxane content designed to remove polar organics from water by pervaporation. Journal of Membrane Science, 241(1), 55-64.
Kurdi, J., & Tremblay, A. Y. (2003). Improvement in polyetherimide gas separation membranes through the incorporation of nanostructured metal complexes. Polymer, 44(16), 4533-4540.
Lee, J., Lee, P., Lee, H., Lee, D., Lee, S. S., & Ko, S. H. (2012). Very long Ag nanowire synthesis and its application in a highly transparent, conductive and flexible metal electrode touch panel. Nanoscale, 4(20), 6408-6414.
Lee, S. H., Lee, D. H., Lee, W. J., & Kim, S. O. (2011). Tailored assembly of carbon nanotubes and graphene. Advanced Functional Materials, 21(8), 1338-1354.
Li, H. W., & Huck, W. T. (2004). Ordered block-copolymer assembly using nanoimprint lithography. Nano Letters, 4(9), 1633-1636.
Li, J., Cheng, X., Sun, J., Brand, C., Shashurin, A., Reeves, M., & Keidar, M. (2014). based ultracapacitors with carbon nanotubes-graphene composites. Journal of Applied Physics, 115(16), 164301.
Liaw, W. C., Chang-Chien, J., Kang, H., Cheng, Y. L., & Li-Wen, F. U. (2008). A straightforward synthesis and characterization of a new poly (imide siloxane)-based thermoplastic elastomer. Polymer journal, 40(2), 116-125.
Liu, G. (2002). Investigation of ductile fracture under tensile high rate loading (Doctoral dissertation, Carleton University).
Mack, C. A. (2011). Fifty years of Moore's law. IEEE Transactions on semiconductor manufacturing, 24(2), 202-207..
Mahoney, C. M., Gardella, J. A., & Rosenfeld, J. C. (2002). Surface characterization and adhesive properties of poly (imidesiloxane) copolymers containing multiple siloxane segment lengths. Macromolecules, 35(13), 5256-5266..
Mahoney, C. M., Gardella, J. A., & Rosenfeld, J. C. (2002). Surface characterization and adhesive properties of poly (imidesiloxane) copolymers containing multiple siloxane segment lengths. Macromolecules, 35(13), 5256-5266.
Mao, G., Saboungi, M. L., Price, D. L., Badyal, Y. S., & Fischer, H. E. (2001). Lithium environment in PEO-LiClO4 polymer electrolyte. EPL (Europhysics Letters), 54(3), 347.
Mata, A., Fleischman, A. J., & Roy, S. (2005). Characterization of polydimethylsiloxane (PDMS) properties for biomedical micro/nanosystems. Biomedical microdevices, 7(4), 281-293.
McGrath, J. E., Dunson, D. L., Mecham, S. J., & Hedrick, J. L. (1999). Synthesis and characterization of segmented polyimide-polyorganosiloxane copolymers. Progress in Polyimide Chemistry I, 61-105.
Mirkhani, S. A., Arjmand, M., Sadeghi, S., Krause, B., Pötschke, P., & Sundararaj, U. (2017). Impact of synthesis temperature on morphology, rheology and electromagnetic interference shielding of CVD-grown carbon nanotube/polyvinylidene fluoride nanocomposites. Synthetic Metals, 230, 39-50.
Noh, J. S. (2016). Conductive elastomers for stretchable electronics, sensors and energy harvesters. Polymers, 8(4), 123.
Pötschke, P., Kobashi, K., Villmow, T., Andres, T., Paiva, M. C., & Covas, J. A. (2011). Liquid sensing properties of melt processed polypropylene/poly (ε-caprolactone) blends containing multiwalled carbon nanotubes. Composites science and technology, 71(12), 1451-1460.
Palmer, M. V., Thacker, T. C., Waters, W., Gortázar, C., & Corner, L. A. (2012). Veterinary medicine international, 2012.
Pan, Y., Wang, L., Su, X., Gao, D., & Cheng, P. (2021). Nanolasers Incorporating Co x Ga0. 6–x ZnSe0. 4 Nanoparticle Arrays with Wavelength Tunability at Room Temperature. ACS Applied Materials & Interfaces, 13(5), 6975-6986.
Raquez, J. M., Habibi, Y., Murariu, M., & Dubois, P. (2013). Polylactide (PLA)-based nanocomposites. Progress in Polymer Science, 38(10-11), 1504-1542.
Ren, J., Zhou, J., & Deng, M. (2010). Morphology transition of asymmetric polyetherimide flat sheet membranes with different thickness by wet phase-inversion process. Separation and purification technology, 74(1), 119-129.
Shin, M. K., Oh, J., Lima, M., Kozlov, M. E., Kim, S. J., & Baughman, R. H. (2010). Elastomeric conductive composites based on carbon nanotube forests. Advanced materials, 22(24), 2663-2667.
Stankovich, S., Dikin, D. A., Dommett, G. H., Kohlhaas, K. M., Zimney, E. J., Stach, E. A., ... & Ruoff, R. S. (2006). Graphene-based composite materials. nature, 442(7100), 282-286.
Vaglio Pret, A. Poliakov, P. Gronheid, R. Blomme, P. Miranda Corbalan, M. Dehaene, W. Verkest, D. Van Houdt, J. D. ..(2012) Microelectronic Engineering; Elsevier, Vol. 98, pp 24–2804.013.
Wohl, C. J., Atkins, B. M., Belcher, M. A., & Connell, J. W. (2012). Synthesis, characterization, topographical modification, and surface properties of copoly (imide siloxane) s. High Performance Polymers, 24(1), 40-49.
Woo, J. Y., Kim, K. K., Lee, J., Kim, J. T., & Han, C. S. (2014). Highly conductive and stretchable Ag nanowire/carbon nanotube hybrid conductors. Nanotechnology, 25(28), 285203.
Xu, F., & Zhu, Y. (2012). Highly conductive and stretchable silver nanowire conductors. Advanced materials, 24(37), 5117-5122.
Yadav, S. K., Kim, I. J., Kim, H. J., Kim, J., Hong, S. M., & Koo, C. M. (2013). PDMS/MWCNT nanocomposite actuators using silicone functionalized multiwalled carbon nanotubes via nitrene chemistry. Journal of Materials Chemistry C, 1(35), 5463-5470.
Yakuphanoglu, F., & Şenkal, B. F. (2007). Electronic and thermoelectric properties of polyaniline organic semiconductor and electrical characterization of Al/PANI MIS diode. The Journal of Physical Chemistry C, 111(4), 1840-1846.
Yan, C., Wang, J., Kang, W., Cui, M., Wang, X., Foo, C. Y., ... & Lee, P. S. (2014). Highly stretchable piezoresistive graphene–nanocellulose nanopaper for strain sensors. Advanced materials, 26(13), 2022-2027.
Yilgör, İ., & McGrath, J. E. (1988). Polysiloxane containing copolymers: a survey of recent developments. Polysiloxane copolymers/anionic polymerization, 1-86.
Yu, M., He, Q., Yu, D., Zhang, X., Ji, A., Zhang, H., ... & Dai, Z. (2012). Efficient active actuation to imitate locomotion of gecko's toes using an ionic polymer-metal composite actuator enhanced by carbon nanotubes. Applied Physics Letters, 101(16), 163701.
Zhang, S., Li, Y., Tian, Q., Liu, L., Yao, W., Chi, C., ... & Wu, W. (2018). Highly conductive, flexible and stretchable conductors based on fractal silver nanostructures. Journal of Materials Chemistry C, 6(15), 3999-4006.
Baughman, R. H., Zakhidov, A. A., & De Heer, W. A. (2002). Carbon nanotubes--the route toward applications. science, 297(5582), 787-792.
Biswas, A., Bayer, I. S., Biris, A. S., Wang, T., Dervishi, E., & Faupel, F. (2012). Advances in top–down and bottom–up surface nanofabrication: Techniques, applications & future prospects. Advances in colloid and interface science, 170(1-2), 2-27.
Borah, D., Ozmen, M., Rasappa, S., Shaw, M. T., Holmes, J. D., & Morris, M. A. (2013). Molecularly functionalized silicon substrates for orientation control of the microphase separation of PS-b-PMMA and PS-b-PDMS block copolymer systems. Langmuir, 29(9), 2809-2820.
Cai, L., Zhang, S., Miao, J., Yu, Z., & Wang, C. (2016). Fully printed stretchable thin-film transistors and integrated logic circuits. Acs Nano, 10(12), 11459-11468.
Chen, G., Pei, X., Liu, J., & Fang, X. (2013). Synthesis and properties of transparent polyimides derived from trans-and cis-1, 4-bis (3, 4-dicarboxyphenoxy) cyclohexane dianhydrides. Journal of Polymer Research, 20(6), 1-11.
Chen, M., Zhang, L., Duan, S., Jing, S., Jiang, H., & Li, C. (2014). Highly stretchable conductors integrated with a conductive carbon nanotube/graphene network and 3D porous poly (dimethylsiloxane). Advanced Functional Materials, 24(47), 7548-7556.
Coleman, J. N., Khan, U., Blau, W. J., & Gun’ko, Y. K. (2006). Small but strong: a review of the mechanical properties of carbon nanotube–polymer composites. Carbon, 44(9), 1624-1652.
Darling, S. B. (2007). Directing the self-assembly of block copolymers. Progress in Polymer Science, 32(10), 1152-1204.
Freebody, M. (Ed.). (2011). Preserving Moore's law pushes lithography to its limits. Photonics Spectra, 45(5), 45-47.
Fu, Y., & Manthiram, A. (2012). Enhanced cyclability of lithium–sulfur batteries by a polymer acid-doped polypyrrole mixed ionic–electronic conductor. Chemistry of Materials, 24(15), 3081-3087.
Gaynor, W., Burkhard, G. F., McGehee, M. D., & Peumans, P. (2011). Smooth nanowire/polymer composite transparent electrodes. Advanced Materials, 23(26), 2905-2910.
Ghoshal, T., Senthamaraikannan, R., Shaw, M. T., Holmes, J. D., & Morris, M. A. (2012). “In situ” hard mask materials: a new methodology for creation of vertical silicon nanopillar and nanowire arrays. Nanoscale, 4(24), 7743-7750.
Hamciuc, E., Hamciuc, C., & Cazacu, M. (2009). Comparative evaluation of some properties of two poly (ether-imide) thin films with/without fluorine in the structure. Rev Roum Chim, 54, 1007-1013.
Hamra, A. A. B., Lim, H. N., Hafiz, S. M., Kamaruzaman, S., Rashid, S. A., Yunus, R., ... & Huang, N. M. (2018). Performance stability of solid-state polypyrrole-reduced graphene oxide-modified carbon bundle fiber for supercapacitor application. Electrochimica Acta, 285, 9-15.
Hirai, T., Leolukman, M., Liu, C. C., Han, E., Kim, Y. J., Ishida, Y., ... & Gopalan, P. (2009). One‐step direct‐patterning template utilizing self‐assembly of POSS‐containing block copolymers. Advanced Materials, 21(43), 4334-4338.
Hwang, J., Jang, J., Hong, K., Kim, K. N., Han, J. H., Shin, K., & Park, C. E. (2011). Poly (3-hexylthiophene) wrapped carbon nanotube/poly (dimethylsiloxane) composites for use in finger-sensing piezoresistive pressure sensors. Carbon, 49(1), 106-110.
Jiao, J., Zhang, H., Yu, L., Wang, X., & Wang, R. (2012). Dispersion of carbon nanotubes with the aid of surface-active ionic liquids 1-dodecyl-3-methyl-pyrrolidinium bromide. Journal of Molecular Liquids, 171, 6-10.
Kazaoui, S., Minami, N., Nalini, B., Kim, Y., & Hara, K. (2005). Near-infrared photoconductive and photovoltaic devices using single-wall carbon nanotubes in conductive polymer films. Journal of applied physics, 98(8), 084314.
Kim, D., & Yun, K. S. (2013). Patterning of carbon nanotube films on PDMS using SU-8 microstructures. Microsystem technologies, 19(5), 743-748.
Kim, H. S., Waqued, S. C., Nodurft, D. T., Devarenne, T. P., Yakovlev, V. V., & Han, A. (2017). Raman spectroscopy compatible PDMS droplet microfluidic culture and analysis platform towards on-chip lipidomics. Analyst, 142(7), 1054-1060.
Kim, J. U., Lee, S., & Kim, T. I. (2016). Recent advances in unconventional lithography for challenging 3D hierarchical structures and their applications. Journal of Nanomaterials, 2016.
Kim, K. S., Zhao, Y., Jang, H., Lee, S. Y., Kim, J. M., Kim, K. S., ... & Hong, B. H. (2009). Large-scale pattern growth of graphene films for stretchable transparent electrodes. nature, 457(7230), 706-710.
Krea, M., Roizard, D., Moulai-Mostefa, N., & Sacco, D. (2004). New copolyimide membranes with high siloxane content designed to remove polar organics from water by pervaporation. Journal of Membrane Science, 241(1), 55-64.
Kurdi, J., & Tremblay, A. Y. (2003). Improvement in polyetherimide gas separation membranes through the incorporation of nanostructured metal complexes. Polymer, 44(16), 4533-4540.
Lee, J., Lee, P., Lee, H., Lee, D., Lee, S. S., & Ko, S. H. (2012). Very long Ag nanowire synthesis and its application in a highly transparent, conductive and flexible metal electrode touch panel. Nanoscale, 4(20), 6408-6414.
Lee, S. H., Lee, D. H., Lee, W. J., & Kim, S. O. (2011). Tailored assembly of carbon nanotubes and graphene. Advanced Functional Materials, 21(8), 1338-1354.
Li, H. W., & Huck, W. T. (2004). Ordered block-copolymer assembly using nanoimprint lithography. Nano Letters, 4(9), 1633-1636.
Li, J., Cheng, X., Sun, J., Brand, C., Shashurin, A., Reeves, M., & Keidar, M. (2014). based ultracapacitors with carbon nanotubes-graphene composites. Journal of Applied Physics, 115(16), 164301.
Liaw, W. C., Chang-Chien, J., Kang, H., Cheng, Y. L., & Li-Wen, F. U. (2008). A straightforward synthesis and characterization of a new poly (imide siloxane)-based thermoplastic elastomer. Polymer journal, 40(2), 116-125.
Liu, G. (2002). Investigation of ductile fracture under tensile high rate loading (Doctoral dissertation, Carleton University).
Mack, C. A. (2011). Fifty years of Moore's law. IEEE Transactions on semiconductor manufacturing, 24(2), 202-207..
Mahoney, C. M., Gardella, J. A., & Rosenfeld, J. C. (2002). Surface characterization and adhesive properties of poly (imidesiloxane) copolymers containing multiple siloxane segment lengths. Macromolecules, 35(13), 5256-5266..
Mahoney, C. M., Gardella, J. A., & Rosenfeld, J. C. (2002). Surface characterization and adhesive properties of poly (imidesiloxane) copolymers containing multiple siloxane segment lengths. Macromolecules, 35(13), 5256-5266.
Mao, G., Saboungi, M. L., Price, D. L., Badyal, Y. S., & Fischer, H. E. (2001). Lithium environment in PEO-LiClO4 polymer electrolyte. EPL (Europhysics Letters), 54(3), 347.
Mata, A., Fleischman, A. J., & Roy, S. (2005). Characterization of polydimethylsiloxane (PDMS) properties for biomedical micro/nanosystems. Biomedical microdevices, 7(4), 281-293.
McGrath, J. E., Dunson, D. L., Mecham, S. J., & Hedrick, J. L. (1999). Synthesis and characterization of segmented polyimide-polyorganosiloxane copolymers. Progress in Polyimide Chemistry I, 61-105.
Mirkhani, S. A., Arjmand, M., Sadeghi, S., Krause, B., Pötschke, P., & Sundararaj, U. (2017). Impact of synthesis temperature on morphology, rheology and electromagnetic interference shielding of CVD-grown carbon nanotube/polyvinylidene fluoride nanocomposites. Synthetic Metals, 230, 39-50.
Noh, J. S. (2016). Conductive elastomers for stretchable electronics, sensors and energy harvesters. Polymers, 8(4), 123.
Pötschke, P., Kobashi, K., Villmow, T., Andres, T., Paiva, M. C., & Covas, J. A. (2011). Liquid sensing properties of melt processed polypropylene/poly (ε-caprolactone) blends containing multiwalled carbon nanotubes. Composites science and technology, 71(12), 1451-1460.
Palmer, M. V., Thacker, T. C., Waters, W., Gortázar, C., & Corner, L. A. (2012). Veterinary medicine international, 2012.
Pan, Y., Wang, L., Su, X., Gao, D., & Cheng, P. (2021). Nanolasers Incorporating Co x Ga0. 6–x ZnSe0. 4 Nanoparticle Arrays with Wavelength Tunability at Room Temperature. ACS Applied Materials & Interfaces, 13(5), 6975-6986.
Raquez, J. M., Habibi, Y., Murariu, M., & Dubois, P. (2013). Polylactide (PLA)-based nanocomposites. Progress in Polymer Science, 38(10-11), 1504-1542.
Ren, J., Zhou, J., & Deng, M. (2010). Morphology transition of asymmetric polyetherimide flat sheet membranes with different thickness by wet phase-inversion process. Separation and purification technology, 74(1), 119-129.
Shin, M. K., Oh, J., Lima, M., Kozlov, M. E., Kim, S. J., & Baughman, R. H. (2010). Elastomeric conductive composites based on carbon nanotube forests. Advanced materials, 22(24), 2663-2667.
Stankovich, S., Dikin, D. A., Dommett, G. H., Kohlhaas, K. M., Zimney, E. J., Stach, E. A., ... & Ruoff, R. S. (2006). Graphene-based composite materials. nature, 442(7100), 282-286.
Vaglio Pret, A. Poliakov, P. Gronheid, R. Blomme, P. Miranda Corbalan, M. Dehaene, W. Verkest, D. Van Houdt, J. D. ..(2012) Microelectronic Engineering; Elsevier, Vol. 98, pp 24–2804.013.
Wohl, C. J., Atkins, B. M., Belcher, M. A., & Connell, J. W. (2012). Synthesis, characterization, topographical modification, and surface properties of copoly (imide siloxane) s. High Performance Polymers, 24(1), 40-49.
Woo, J. Y., Kim, K. K., Lee, J., Kim, J. T., & Han, C. S. (2014). Highly conductive and stretchable Ag nanowire/carbon nanotube hybrid conductors. Nanotechnology, 25(28), 285203.
Xu, F., & Zhu, Y. (2012). Highly conductive and stretchable silver nanowire conductors. Advanced materials, 24(37), 5117-5122.
Yadav, S. K., Kim, I. J., Kim, H. J., Kim, J., Hong, S. M., & Koo, C. M. (2013). PDMS/MWCNT nanocomposite actuators using silicone functionalized multiwalled carbon nanotubes via nitrene chemistry. Journal of Materials Chemistry C, 1(35), 5463-5470.
Yakuphanoglu, F., & Şenkal, B. F. (2007). Electronic and thermoelectric properties of polyaniline organic semiconductor and electrical characterization of Al/PANI MIS diode. The Journal of Physical Chemistry C, 111(4), 1840-1846.
Yan, C., Wang, J., Kang, W., Cui, M., Wang, X., Foo, C. Y., ... & Lee, P. S. (2014). Highly stretchable piezoresistive graphene–nanocellulose nanopaper for strain sensors. Advanced materials, 26(13), 2022-2027.
Yilgör, İ., & McGrath, J. E. (1988). Polysiloxane containing copolymers: a survey of recent developments. Polysiloxane copolymers/anionic polymerization, 1-86.
Yu, M., He, Q., Yu, D., Zhang, X., Ji, A., Zhang, H., ... & Dai, Z. (2012). Efficient active actuation to imitate locomotion of gecko's toes using an ionic polymer-metal composite actuator enhanced by carbon nanotubes. Applied Physics Letters, 101(16), 163701.
Zhang, S., Li, Y., Tian, Q., Liu, L., Yao, W., Chi, C., ... & Wu, W. (2018). Highly conductive, flexible and stretchable conductors based on fractal silver nanostructures. Journal of Materials Chemistry C, 6(15), 3999-4006.