TY - JOUR
T1 - Large area films of alternating graphene-carbon nanotube layers processed in water
AU - Tristán-López, Ferdinando
AU - Morelos-Gómez, Aaron
AU - Vega-Díaz, Sofía Magdalena
AU - García-Betancourt, María Luisa
AU - Perea-López, Néstor
AU - Elías, Ana L.
AU - Muramatsu, Hiroyuki
AU - Cruz-Silva, Rodolfo
AU - Tsuruoka, Shuji
AU - Kim, Yoong Ahm
AU - Hayahsi, Takuya
AU - Kaneko, Katsumi
AU - Endo, Morinobu
AU - Terrones, Mauricio
PY - 2013/12/23
Y1 - 2013/12/23
N2 - We report the preparation of hybrid paperlike films consisting of alternating layers of graphene (or graphene oxide) and different types of multiwalled carbon nanotubes (N-doped MWNTs, B-doped MWNTs, and pristine MWNTs). We used an efficient self-assembly method in which nanotubes were functionalized with cationic polyelectrolytes in order to make them dispersible in water, and subsequently these suspensions were mixed with graphene oxide (GO) suspensions, and the films were formed by casting/evaporation processes. The electronic properties of these films (as produced and thermally reduced) were characterized, and we found electrical resistivities as low as 3 × 10 -4 Ω cm. Furthermore, we observed that these films could be used as electron field emission sources with extraordinary efficiencies; threshold electric field of ca. 0.55 V/μm, β factor as high as of 15.19 × 103, and operating currents up to 220 μA. These values are significantly enhanced when compared to previous reports in the literature for other carbon nanostructured filmlike materials. We believe these hybrid foils could find other applications as scaffolds for tissue regeneration, thermal and conducting papers, and laminate composites with epoxy resins.
AB - We report the preparation of hybrid paperlike films consisting of alternating layers of graphene (or graphene oxide) and different types of multiwalled carbon nanotubes (N-doped MWNTs, B-doped MWNTs, and pristine MWNTs). We used an efficient self-assembly method in which nanotubes were functionalized with cationic polyelectrolytes in order to make them dispersible in water, and subsequently these suspensions were mixed with graphene oxide (GO) suspensions, and the films were formed by casting/evaporation processes. The electronic properties of these films (as produced and thermally reduced) were characterized, and we found electrical resistivities as low as 3 × 10 -4 Ω cm. Furthermore, we observed that these films could be used as electron field emission sources with extraordinary efficiencies; threshold electric field of ca. 0.55 V/μm, β factor as high as of 15.19 × 103, and operating currents up to 220 μA. These values are significantly enhanced when compared to previous reports in the literature for other carbon nanostructured filmlike materials. We believe these hybrid foils could find other applications as scaffolds for tissue regeneration, thermal and conducting papers, and laminate composites with epoxy resins.
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U2 - 10.1021/nn404022m
DO - 10.1021/nn404022m
M3 - Article
AN - SCOPUS:84891347389
SN - 1936-0851
VL - 7
SP - 10788
EP - 10798
JO - ACS nano
JF - ACS nano
IS - 12
ER -