TY - JOUR
T1 - Purification and Assembly of DNA-Stabilized boron nitride nanotubes into aligned Films
AU - Kode, Venkateswara R.
AU - Thompson, Michael E.
AU - McDonald, Camerin
AU - Weicherding, Johnathan
AU - Dobrila, Tony D.
AU - Fodor, Petru S
AU - Wirth, Christopher L.
AU - Ao, Geyou
PY - 2019/4/26
Y1 - 2019/4/26
N2 - The liquid phase processing including dispersion, purification, and assembly of boron nitride nanotubes (BNNTs) is important for effectively translating unique properties of BNNTs into assembled solid materials, such as films and fibers. Short single-stranded DNA (ssDNA) has been the biopolymer of choice to achieve efficient sorting and assembly of carbon nanotubes, which are structural analogues to BNNTs. Here, we demonstrated a highly efficient aqueous dispersion of BNNTs using (GT)20 ssDNA and the subsequent removal of non-nanotube impurities from dispersions of as-synthesized BNNT material by a membrane filtration approach. The surface coating of BNNTs by DNA creates uniform dispersions at a nanotube concentration of as high as ≈11.5 mass %, leading to the formation of solid aligned films after solvent evaporation without applied shear, therefore demonstrating the first example of BNNT films produced by spontaneous alignment of nanotubes. Our findings provide important insights for producing macroscopic assemblies of aligned BNNT films for potential applications in thermal interface material and electronic and optoelectronic devices. ©
AB - The liquid phase processing including dispersion, purification, and assembly of boron nitride nanotubes (BNNTs) is important for effectively translating unique properties of BNNTs into assembled solid materials, such as films and fibers. Short single-stranded DNA (ssDNA) has been the biopolymer of choice to achieve efficient sorting and assembly of carbon nanotubes, which are structural analogues to BNNTs. Here, we demonstrated a highly efficient aqueous dispersion of BNNTs using (GT)20 ssDNA and the subsequent removal of non-nanotube impurities from dispersions of as-synthesized BNNT material by a membrane filtration approach. The surface coating of BNNTs by DNA creates uniform dispersions at a nanotube concentration of as high as ≈11.5 mass %, leading to the formation of solid aligned films after solvent evaporation without applied shear, therefore demonstrating the first example of BNNT films produced by spontaneous alignment of nanotubes. Our findings provide important insights for producing macroscopic assemblies of aligned BNNT films for potential applications in thermal interface material and electronic and optoelectronic devices. ©
KW - aligned films
KW - boron nitride nanotubes
KW - nanotube dispersion
KW - purification
KW - single-stranded DNA
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U2 - 10.1021/acsanm.9b00088
DO - 10.1021/acsanm.9b00088
M3 - Article
SN - 2574-0970
VL - 2
SP - 2099
EP - 2105
JO - ACS Applied Nano Materials
JF - ACS Applied Nano Materials
IS - 4
ER -