B. Mahar scite author profile

Fig. 1. Fluorescence photograph of three different quantum dot size solutions, with the emission wavelengths corresponding approximately to those used in this present work's nanotube quantum dot heterostructures: green (2.32 nm), yellow-orange (2.96 nm) and dark-red (4.57 nm) [6]. Abstract-Carbon nanotube-quantum dot heterostructureswere formed using multiwalled carbon nanotubes and CdSe quantum dots, which were trapped as networks between electrodes via dielectrophoresis. Chemical exposure to 10 ppm CuSO 4 displayed a size-dependent modulation of chemical sensitivity, with the heterostructures using 2.32 nm diameter quantum dots displaying an 11.4% resistance change, while those using 2.96 nm quantum dots displayed a 14.8% change and those using 4.57 nm quantum dots a 19.2% change. These results indicate a decrease in sensitivity when compared to amine-functionalized carbon nanotubes without quantum dot decoration, which show a 47.8% resistance change. This drop is partly attributed to charge transfer between the nanotubes and the CdSe quantum dots. The demonstrated modulation of nanotube properties has potential ramifications and applications for the rapidly emerging field of nanotube-based chemical sensors.I.

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B. Mahar

Development of Carbon Nanotube-Based Sensors—A Review

Sensitivity modulation of carbon-nanotube chemical sensors via quantum dot heterostructures

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