[1] Saundar V C, Zaumseil J, Podzorov V, Menard E, Willett R, Someya T, Gershenson M E, Rogers J A. Elastomeric transistor stamps: reversible probing of charge transport in organic crystals [J].Science, 2004, 303: 1644-1646.
[2] Jurchescu O D, Bass J, Palstra T. Effect of impurities on the mobility of single crystal pentacene [J]. Applied Physics Letters, 2004, 84(16):3061-3063.
[3] Halik M, Klauk H, Zschieschang U, Schmid G, Ponomarenko S, Kirchmeyer S, Weber W. Relationship between molecular structure and electrical performance of oligothiophene organic thin film transistors [J]. Advanced Materials, 2003, 15(11):917-922.
[4] Zeis R, Siegrist T, Kloc C. Single-crystal field-effect transistors based on copper phthalocyanine [J]. Applied Physics Letters, 2005, 86(2):022103-022113.
[5] Karousis N, Tagmatarchis N, Tasis D. Current progress on the chemical modification of carbon nanotubes [J]. Chemical Reviews, 2010, 110(9):5366-5397.
[6] Tasis D, Tagmatarchis N, BiNCO A, Prato M. Chemistry of carbon nanotubes [J]. Chemical Reviews, 2006, 106(3):1105-1136.
[7] Dyke C A, Tour J M. Covalent functionalization of single-walled carbon nanotubes for materials applications [J]. Journal of Physics Chemistry A, 2004, 108(51):11151-11159.
[8] Schnorr J M, Swager T M. Emerging applications of carbon nanotubes [J]. Chemistry of Materials, 2011, 23(3):646-657.
[9] Liu P, Modification strategies for carbon nanotubes as a drug delivery system [J]. Industrial and Engineering Chemistry Research, 2013, 52(38):13517-13527.
[10] Opatkiewicz J, LeMieux M C, Bao Z N. Nanotubes on display: how carbon nanotubes can be integrated into electronic displays [J]. ACS Nano, 2010, 4(6):2975-2978.
[11] Muenzer A M, Michael Z R, Star A. Carbon nanotubes for the label-free detection of biomarkers [J]. ACS Nano, 2013, 7(9):7448-7453.
[12] Yoshio S, Tatami J, Yamakawa T, Wakihara T, Komeya K, Meguro T, Aramaki K, Yasuda K. Dispersion of carbon nanotubes in ethanol by a bead milling process [J]. Carbon, 2011,49(13):4131-4137.
[13] Rahamt M, Hubert P. Carbon nanotube polymer interactions in nanocomposites: A review [J]. Composites Science and Technology, 2011, 72(1):72-84.
[14] Li C H, Nq A M, Mak C S, Djurisic A B, Chan W K. Ruthenium complex containing block copolymer for the enhancement of carbon nanotube photoconductivity [J].ACS Applied Materials & Interfaces, 2012, 4(1):74-80.
[15] Rouhi N, Jain D, Burke P J. High-performance semiconducting nanotube inks: progress and prospects [J]. ACS Nano, 2011, 5(11):8471-8487.
[16] Yao Z, Kane C L, Dekker C. High-field electrical transport in single-wall carbon nanotubes [J]. Physical Review Letters, 2000, 84(13):2941-2944.
[17] Moore V C, Strano M S, Haroz E H, Hauge R H, Smalley R E. Individually suspended single-walled carbon nanotubes in various surfactants [J]. Nano Letters, 2003,3(10):1379-1382.
[18] Rastogi R, Kaushal R, S K Tripathi, Sharma A L, Kaur I, Bharadwaj L M. Comparative study of carbon nanotube dispersion using surfactants [J]. Journal of Colloid and Interface Science, 2008, 328(2):421-428.
[19] Kwon O S,Kim H,Ko H,Lee J, Lee B, Jung C H, Choi J H, Shin K. Fabrication and characterization of inkjet-printed carbon nanotube electrode patterns on paper [J]. Carbon,2013,58:116-127.
[20] Zhao J W, Gao Y L, Gu W B, Wang C, Lin J, Chen Z, Cui Z. Fabrication and electrical properties of all-printed carbon nanotube thin film transistors on flexible substrates [J]. Journal of Materials Chemistry, 2012, 22(38):20747-20753.
[21] Liu Y T, Zhao W, Huang Z Y, Gao Y F, Xie X M, Wang X H, Ye X Y. Noncovalent surface modification of carbon nanotubes for solubility in organic solvents [J]. Carbon, 2006, 44:1581-1616.
[22] Shin H I, Min B G, Jeong W Y, Park C M. Amphiphilic block copolymer micelles: new dispersant for single wall carbon nanotubes [J]. Macromolecules Rapid Communication, 2005, 26(18):1451-1457.
[23] Sung J, Jo P S, Shin H, huh J, Min B G, Kim D H, Park C. Transparent, low-electric-resistance nanocomposites of self-assembled block copolymers and SWNTs [J]. Advanced Materials, 2008, 20(8):1505-1510.
[24] Acharya H, Sung J, Shin H, Park S Y, Min B G, Park C. Deposition of silver nanoparticles on single wall carbon nanotubes via a self assembled block copolymer micelles [J]. Reactive & Functional Polymers, 2009, 69(7):552-557.
[25] Kim T H, Doe C, Kline S R, Choi S M. Water-redispersible isolated single-walledcarbon nanotubes fabricated by in situ polymerization of micelles [J]. Advanced Materials, 2007, 19(7):929-933.
[26] 郝平, 高云燕, 欧植泽, 刘丽华, 王中丽, 殷卫峰. 碳纳米管在电化学和光化学纳米生物传感器中的应用[J]. 影像科学与光化学, 2011, 29(1):70-76. Hao P, Gao Y Y, Ou Z Z, Liu L H,Wang Z L,Ying W F. The application of carbon nanotubes in electrical and optical nanbiosensor [J]. Imaging Science and Photochemistry, 2011, 29(1):70-76.
[27] Kang Y, Taton T A. Micelle-encapsulated carbon nanotubes: a route to nanotube composites [J]. Journal of the American Chemical Society,2003, 125(19):5650-5651.
[28] Lee K P, Gopalan A I, Komathi S. Direct electrochemistry of cytochrome c and biosensing for hydrogen peroxide on polyaniline grafted multi-walled carbon nanotube electrode [J]. Sensors & Actuators B: Chemical, 2009, 141(2):518-525.
[29] 邱军,张世红,王国建.多壁碳纳米管的表面改性及其在防火涂料中的应用[J].新型炭材料, 2009,24(4):344-348. Qiu J, Zhang S H, Wang G J. Surface modification and application of multi-walled carbon nanitubes in fireoretardent coatings [J]. New Carbon Materials, 2009, 24(4): 344-348.
[30] Lopez A J, Urena A, Rams J. Wear resistant coatings: silica sol-gel reinforced with carbon nanotubes [J]. Thin Solid Films, 2011, 519(22);7904-7910.
[31] Li Y G, Yang D G, Adronov A, Gao Y, Luo X J, Li H M. Covalent functionalization of single-walled carbon nanotubes with thermoresponsive core cross-linked polymeric micelles [J]. Macromolecules, 2012, 45(11):4698-4706.
[32] Liu J C, Liu R, Jiang J Q, Liu X Y. Micelle-encapsulated multi-wall carbon nanotubes with photo-sensitive copolymer and its application in the detection of dopamine [J]. Colloid and Polymer Science, 2013, 292(1):153-161.
[33] Liu J C, Liu R, Yuan Y, Zhang S W, Liu X Y. Preparation of superhydrophobic antistatic coatings from branched alternating copolymers P(St-alt-MAn) and carbon nanotubes based on organic-inorganic hybrid approach[J]. Progress in Organic Coatings, 2013, 76(9):1251-1257.
[34] Okimoto H, Takenobu T, Yanagi K, Miyata Y, Shimotani H, Kataura H, Iwasa Y. Tunable carbon nanotube thin-film transistors produced exclusively via ink jet printing [J]. Advanced Materials, 2010, 22(36);3981-3986.
[35] Noh J, Jung M, Jung K, Lee G, Kim J, Lim S, Kim D, Choi Y, Kim Y, Sunramanian V, Cho G. Fully gravure-printed D flip-flop on plastic foils using single-walled carbon-nanotube-based TFTs [J]. IEEI Electron Device Letter, 2011, 32(5):638-640.
[36] Furuta H, Koji H, Komukai T, Hatta A. Long lifetime emission from screen printing carbon nanotubes over 45000 h at 1.27 mA/cm2 with 10% duty ratio [J]. Diamond & Related Materials, 2013, 35:29-35.
[37] Kumar B, Tan H S, Ramalingam N, Mhaisalkar S G. Integration of ink jet and transfer printing for device fabrication using nanostructured materials [J]. Carbon, 2008, 47(1):313-347.
[38] Panhuis M, Heurtematte A, Small W R, Paunov V N. Inkjet printed water sensitive transparent films from natural gum–carbon nanotube composites [J]. Soft Matter, 2007, 3(7):840-843.
[39] Fu D L, Lim H L, Shi Y M, Dong X C, Mhaislkar S G, Chen Y, Moochhala S, Li L J. Differentiation of gas molecules using flexible and all-carbon nanotube devices [J]. Journal of Physics Chemistry C, 2008, 112(3):650-653.
[40] Wang F, Gu H W, Swager T M,Carbon nanotube/polythiophene chemiresistive sensors for chemical warfare agents [J]. Journal of the American Chemical Society, 2008, 130(16);5392-5393.
[41] Ammu S, Dua V, Agnihotra S R, Surwade S P, Phulgirkar A, Patel S, Manohar S K. Flexible, all-organic chemiresistor for detecting chemically aggressive vapors [J]. Journal of the American Chemical Society, 2012, 134(10):4553-4556.
[42] Sánchez M, Rincán M E. Sensor response of sol-gel multiwalled carbon nanotubes-TiO2 composites deposited by screen-printing and dip-coating techniques [J]. Sensors and Actuators B: Chemical, 2009,140:17-23.
[43] Wu H Q, Lai J P, Zeng X B, Yuan Y, Luo J, Liu X Y. Preparation and properties of aqueous MCNTs dispersion based on an UV-curable polymeric dispersant[J]. Information Recording Materials, 2014, 15(2) :3-7. |