carbon nanotubes Search Results


carbon nanotubes  (Nanografi Advanced Materials)
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Nanografi Advanced Materials carbon nanotubes
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multi walled carbon nanotubes  (Nanografi Advanced Materials)
91
Nanografi Advanced Materials multi walled carbon nanotubes
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carbon nanotube cnt powder  (Nanografi Advanced Materials)
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Nanografi Advanced Materials carbon nanotube cnt powder
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multi walled carbon nanotubes mwcnts  (Nanografi Advanced Materials)
94
Nanografi Advanced Materials multi walled carbon nanotubes mwcnts
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mwcnts  (Nanografi Advanced Materials)
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Nanografi Advanced Materials mwcnts
Mwcnts, supplied by Nanografi Advanced Materials, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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swcnt reference materials  (National Research Council Canada)
91
National Research Council Canada swcnt reference materials
Fig. 1 Elemental recovery of catalytically active transition metals in the two <t>SWCNT</t> reference materials, with the averages and standard deviations obtained with N ¼ 3. (a, b) Calculated percentages for SWCNT-1, fused at 850 C and 1050 C, respectively; (c, <t>d)</t> <t>SRM2483,</t> fused at 850 C and 1050 C, respectively.
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short length multi walled carbon nanotubes  (Nanografi Advanced Materials)
93
Nanografi Advanced Materials short length multi walled carbon nanotubes
Fig. 1 Elemental recovery of catalytically active transition metals in the two <t>SWCNT</t> reference materials, with the averages and standard deviations obtained with N ¼ 3. (a, b) Calculated percentages for SWCNT-1, fused at 850 C and 1050 C, respectively; (c, <t>d)</t> <t>SRM2483,</t> fused at 850 C and 1050 C, respectively.
Short Length Multi Walled Carbon Nanotubes, supplied by Nanografi Advanced Materials, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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cooh functionalized multi walled carbon nanotubes  (Nanografi Advanced Materials)
93
Nanografi Advanced Materials cooh functionalized multi walled carbon nanotubes
Fig. 1 Elemental recovery of catalytically active transition metals in the two <t>SWCNT</t> reference materials, with the averages and standard deviations obtained with N ¼ 3. (a, b) Calculated percentages for SWCNT-1, fused at 850 C and 1050 C, respectively; (c, <t>d)</t> <t>SRM2483,</t> fused at 850 C and 1050 C, respectively.
Cooh Functionalized Multi Walled Carbon Nanotubes, supplied by Nanografi Advanced Materials, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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multiwalled carbon nanotubes  (Nanografi Advanced Materials)
93
Nanografi Advanced Materials multiwalled carbon nanotubes
Fig. 1 Elemental recovery of catalytically active transition metals in the two <t>SWCNT</t> reference materials, with the averages and standard deviations obtained with N ¼ 3. (a, b) Calculated percentages for SWCNT-1, fused at 850 C and 1050 C, respectively; (c, <t>d)</t> <t>SRM2483,</t> fused at 850 C and 1050 C, respectively.
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dwcnts  (Nanografi Advanced Materials)
90
Nanografi Advanced Materials dwcnts
Fig. 1 Elemental recovery of catalytically active transition metals in the two <t>SWCNT</t> reference materials, with the averages and standard deviations obtained with N ¼ 3. (a, b) Calculated percentages for SWCNT-1, fused at 850 C and 1050 C, respectively; (c, <t>d)</t> <t>SRM2483,</t> fused at 850 C and 1050 C, respectively.
Dwcnts, supplied by Nanografi Advanced Materials, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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mcnt powder  (Nanografi Advanced Materials)
91
Nanografi Advanced Materials mcnt powder
Fig. 1. mCNTs induce cell death under rotating magnetic field. (A) Rotating magnetic field and mag- netic carbon nanotubes (mCNTs) exert mechanical work and stimula- tion to tumor cells. (B) Magnetic coil system for generating rotating magnetic fields. (C) Cell death rate after magnetic treatment using different concentrations of mCNTs. Control group receives phosphate- buffered <t>saline</t> <t>(PBS)</t> without mCNTs. n = 3 independent experi- ments. Error bar: SD. (D) Represen- tative images of live/dead cell staining of control, <t>mCNT</t> treatment, magnetic treatment, or mCNT + magnetic treatment group. (E) Scanning electron microscopy (SEM) and transmission EM (TEM) image of an mCNT. (F) SEM and TEM image of an mCNT with energy-dispersive x- ray spectroscopy (EDX) mode. (G) SEM images of glioblastoma (GBM) cells with mCNTs. mCNT clusters were labeled with pseudocolor. (H) mCNTs and their localization with F- actin, endosome, lysosome, and mi- tochondria. DAPI, 4′,6-diamidino-2- phenylindole. (I) Quantification of mitochondria membrane potential by JC-1 dye staining. JC-1 red to green ratio is calculated by dividing red over green fluorescent signal for each cell. n = 50 cells. Error bar: SD. (J) Quantification of cytochrome c signal outside of mitochondria. Mi- tochondria are labeled by TOM20. The percentage of cytochrome c outside of mitochondria is calculat- ed by dividing the cytochrome c signal, which is not overlapped with TOM20, and the total cytochrome c signal for each cell. n = 30 cells. Error bar: SD.
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single wall carbon nanotube  (Tokyo Chemical Industry)
86
Tokyo Chemical Industry single wall carbon nanotube
Fig. 1. mCNTs induce cell death under rotating magnetic field. (A) Rotating magnetic field and mag- netic carbon nanotubes (mCNTs) exert mechanical work and stimula- tion to tumor cells. (B) Magnetic coil system for generating rotating magnetic fields. (C) Cell death rate after magnetic treatment using different concentrations of mCNTs. Control group receives phosphate- buffered <t>saline</t> <t>(PBS)</t> without mCNTs. n = 3 independent experi- ments. Error bar: SD. (D) Represen- tative images of live/dead cell staining of control, <t>mCNT</t> treatment, magnetic treatment, or mCNT + magnetic treatment group. (E) Scanning electron microscopy (SEM) and transmission EM (TEM) image of an mCNT. (F) SEM and TEM image of an mCNT with energy-dispersive x- ray spectroscopy (EDX) mode. (G) SEM images of glioblastoma (GBM) cells with mCNTs. mCNT clusters were labeled with pseudocolor. (H) mCNTs and their localization with F- actin, endosome, lysosome, and mi- tochondria. DAPI, 4′,6-diamidino-2- phenylindole. (I) Quantification of mitochondria membrane potential by JC-1 dye staining. JC-1 red to green ratio is calculated by dividing red over green fluorescent signal for each cell. n = 50 cells. Error bar: SD. (J) Quantification of cytochrome c signal outside of mitochondria. Mi- tochondria are labeled by TOM20. The percentage of cytochrome c outside of mitochondria is calculat- ed by dividing the cytochrome c signal, which is not overlapped with TOM20, and the total cytochrome c signal for each cell. n = 30 cells. Error bar: SD.
Single Wall Carbon Nanotube, supplied by Tokyo Chemical Industry, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Fig. 1 Elemental recovery of catalytically active transition metals in the two SWCNT reference materials, with the averages and standard deviations obtained with N ¼ 3. (a, b) Calculated percentages for SWCNT-1, fused at 850 C and 1050 C, respectively; (c, d) SRM2483, fused at 850 C and 1050 C, respectively.

Journal: Journal of Analytical Atomic Spectrometry

Article Title: The elemental analysis and multi-nuclear NMR study of an alkali molten salt used to digest reference and commercial SWCNT powders

doi: 10.1039/d0ja00325e

Figure Lengend Snippet: Fig. 1 Elemental recovery of catalytically active transition metals in the two SWCNT reference materials, with the averages and standard deviations obtained with N ¼ 3. (a, b) Calculated percentages for SWCNT-1, fused at 850 C and 1050 C, respectively; (c, d) SRM2483, fused at 850 C and 1050 C, respectively.

Article Snippet: Two lots of commercial SWCNTs procured from Sigma-Aldrich (named here: SWCNT-7867V, with $95% carbon content, lot MKBW7867V, and SWCNT-5848V, with >70% carbon content, lot MKBW5848V) and two SWCNT reference materials (SWCNT1, from the National Research Council Canada and SRM2483, from the National Institute of Standards and Technology) were analyzed.

Techniques:

Fig. 4 13C solid state 1D MAS NMR of the two standards. (a) SWCNT-1 in the as-received state (bottom spectrum) and after melting (top spectra), at 850 C and 1050 C; (b) SRM2483, in the as-received (bottom spectrum) and after melting (top spectra), at 850 C and 1050 C.

Journal: Journal of Analytical Atomic Spectrometry

Article Title: The elemental analysis and multi-nuclear NMR study of an alkali molten salt used to digest reference and commercial SWCNT powders

doi: 10.1039/d0ja00325e

Figure Lengend Snippet: Fig. 4 13C solid state 1D MAS NMR of the two standards. (a) SWCNT-1 in the as-received state (bottom spectrum) and after melting (top spectra), at 850 C and 1050 C; (b) SRM2483, in the as-received (bottom spectrum) and after melting (top spectra), at 850 C and 1050 C.

Article Snippet: Two lots of commercial SWCNTs procured from Sigma-Aldrich (named here: SWCNT-7867V, with $95% carbon content, lot MKBW7867V, and SWCNT-5848V, with >70% carbon content, lot MKBW5848V) and two SWCNT reference materials (SWCNT1, from the National Research Council Canada and SRM2483, from the National Institute of Standards and Technology) were analyzed.

Techniques:

Fig. 5 Elemental recovery of selected transition metals present in commercial SWCNT samples (average recoveries and standard devi- ations based on N ¼ 3). (a, b) Calculated percentages for SWCNT- 7867V, at 850 C and 1050 C, respectively; (c, d) SWCNT-5848V, at 850 C and 1050 C, respectively.

Journal: Journal of Analytical Atomic Spectrometry

Article Title: The elemental analysis and multi-nuclear NMR study of an alkali molten salt used to digest reference and commercial SWCNT powders

doi: 10.1039/d0ja00325e

Figure Lengend Snippet: Fig. 5 Elemental recovery of selected transition metals present in commercial SWCNT samples (average recoveries and standard devi- ations based on N ¼ 3). (a, b) Calculated percentages for SWCNT- 7867V, at 850 C and 1050 C, respectively; (c, d) SWCNT-5848V, at 850 C and 1050 C, respectively.

Article Snippet: Two lots of commercial SWCNTs procured from Sigma-Aldrich (named here: SWCNT-7867V, with $95% carbon content, lot MKBW7867V, and SWCNT-5848V, with >70% carbon content, lot MKBW5848V) and two SWCNT reference materials (SWCNT1, from the National Research Council Canada and SRM2483, from the National Institute of Standards and Technology) were analyzed.

Techniques:

Fig. 6 Structural characterization of commercial nanotube samples. (a) 13C solid state 1D MAS NMR for the SWCNT-7867V sample in the as- received state (bottom spectrum) and after melting (top spectra), at 850 C and 1050 C; (b) high magnification TEM micrograph of the as- received SWCNT-5848V; (c) Raman spectrum of the nanotube sample shown in (b).

Journal: Journal of Analytical Atomic Spectrometry

Article Title: The elemental analysis and multi-nuclear NMR study of an alkali molten salt used to digest reference and commercial SWCNT powders

doi: 10.1039/d0ja00325e

Figure Lengend Snippet: Fig. 6 Structural characterization of commercial nanotube samples. (a) 13C solid state 1D MAS NMR for the SWCNT-7867V sample in the as- received state (bottom spectrum) and after melting (top spectra), at 850 C and 1050 C; (b) high magnification TEM micrograph of the as- received SWCNT-5848V; (c) Raman spectrum of the nanotube sample shown in (b).

Article Snippet: Two lots of commercial SWCNTs procured from Sigma-Aldrich (named here: SWCNT-7867V, with $95% carbon content, lot MKBW7867V, and SWCNT-5848V, with >70% carbon content, lot MKBW5848V) and two SWCNT reference materials (SWCNT1, from the National Research Council Canada and SRM2483, from the National Institute of Standards and Technology) were analyzed.

Techniques:

Fig. 1. mCNTs induce cell death under rotating magnetic field. (A) Rotating magnetic field and mag- netic carbon nanotubes (mCNTs) exert mechanical work and stimula- tion to tumor cells. (B) Magnetic coil system for generating rotating magnetic fields. (C) Cell death rate after magnetic treatment using different concentrations of mCNTs. Control group receives phosphate- buffered saline (PBS) without mCNTs. n = 3 independent experi- ments. Error bar: SD. (D) Represen- tative images of live/dead cell staining of control, mCNT treatment, magnetic treatment, or mCNT + magnetic treatment group. (E) Scanning electron microscopy (SEM) and transmission EM (TEM) image of an mCNT. (F) SEM and TEM image of an mCNT with energy-dispersive x- ray spectroscopy (EDX) mode. (G) SEM images of glioblastoma (GBM) cells with mCNTs. mCNT clusters were labeled with pseudocolor. (H) mCNTs and their localization with F- actin, endosome, lysosome, and mi- tochondria. DAPI, 4′,6-diamidino-2- phenylindole. (I) Quantification of mitochondria membrane potential by JC-1 dye staining. JC-1 red to green ratio is calculated by dividing red over green fluorescent signal for each cell. n = 50 cells. Error bar: SD. (J) Quantification of cytochrome c signal outside of mitochondria. Mi- tochondria are labeled by TOM20. The percentage of cytochrome c outside of mitochondria is calculat- ed by dividing the cytochrome c signal, which is not overlapped with TOM20, and the total cytochrome c signal for each cell. n = 30 cells. Error bar: SD.

Journal: Science advances

Article Title: Mechanical nanosurgery of chemoresistant glioblastoma using magnetically controlled carbon nanotubes.

doi: 10.1126/sciadv.ade5321

Figure Lengend Snippet: Fig. 1. mCNTs induce cell death under rotating magnetic field. (A) Rotating magnetic field and mag- netic carbon nanotubes (mCNTs) exert mechanical work and stimula- tion to tumor cells. (B) Magnetic coil system for generating rotating magnetic fields. (C) Cell death rate after magnetic treatment using different concentrations of mCNTs. Control group receives phosphate- buffered saline (PBS) without mCNTs. n = 3 independent experi- ments. Error bar: SD. (D) Represen- tative images of live/dead cell staining of control, mCNT treatment, magnetic treatment, or mCNT + magnetic treatment group. (E) Scanning electron microscopy (SEM) and transmission EM (TEM) image of an mCNT. (F) SEM and TEM image of an mCNT with energy-dispersive x- ray spectroscopy (EDX) mode. (G) SEM images of glioblastoma (GBM) cells with mCNTs. mCNT clusters were labeled with pseudocolor. (H) mCNTs and their localization with F- actin, endosome, lysosome, and mi- tochondria. DAPI, 4′,6-diamidino-2- phenylindole. (I) Quantification of mitochondria membrane potential by JC-1 dye staining. JC-1 red to green ratio is calculated by dividing red over green fluorescent signal for each cell. n = 50 cells. Error bar: SD. (J) Quantification of cytochrome c signal outside of mitochondria. Mi- tochondria are labeled by TOM20. The percentage of cytochrome c outside of mitochondria is calculat- ed by dividing the cytochrome c signal, which is not overlapped with TOM20, and the total cytochrome c signal for each cell. n = 30 cells. Error bar: SD.

Article Snippet: Specifically, 10 mg of mCNT powder (NG01SC0703-5-CNT, Nanografi Nano Technology Co. Ltd.) in 10 ml of PBS or ethanol was sonicated in an ice bath using a Sonic Dismembrators (FB432B2, Fisher Scientific) for 30 min (15 W and 20 kHz). mCNT PBS suspension was used immediately, while mCNT ethanol suspension was stored for further functionalization. mCNT functionalization mCNTs were coated with biotin anti-CD44 antibodies (Abcam, ab157105) or fluorescent Alexa Fluor 555 streptavidin (Thermo Fisher Scientific, S32355) through a three-step method. mCNTs functionalized with carboxyl (─COOH) groups were first obtained from citric acid–assisted O2 plasma treatment.

Techniques: Control, Saline, Staining, Electron Microscopy, Transmission Assay, Spectroscopy, Labeling, Membrane