Improved acetone sensing properties of ZnO hollow nanofibers by single capillary electrospinning

“…Therefore they have high demand in various applications like water treatment, energy, catalysis and gas sensing. [15][16][17][18][19][20][21][22][23] They are also attractive due to their enhanced electron and phonon transport properties, inherent to their unique dimension. Though various techniques are available for the synthesis of nanobers, electrospinning is considered as a versatile technique for its capability in large-scale synthesis of polymer and ceramic bers.…”

“…Moreover, the added advantage of faceted nanoparticles in combination with 1D can offer new multi-functionalities for applications such as catalysis, batteries, DSSC and gas sensing. 6,[15][16][17][18][19][20][21][22][23][30][31][32][33][34][35][36][37][38][39] We report for the rst time a direct synthesis of hollow MgO NFs decorated with faceted MgO NPs via electrospinning, where we combine both these dimensions in a single nanoarchitecture just by the addition of a surfactant. Since MgO is an important material, which nds application in catalysis, water treatment, refractory material, photocatalysis and as an adsorbent in separation of CO 2 from the ue gases, [40][41][42][43][44][45] we have chosen MgO as the model system for our interest.…”

Surfactant-driven direct synthesis of a hierarchical hollow MgO nanofiber–nanoparticle composite by electrospinning

“…Therefore they have high demand in various applications like water treatment, energy, catalysis and gas sensing. [15][16][17][18][19][20][21][22][23] They are also attractive due to their enhanced electron and phonon transport properties, inherent to their unique dimension. Though various techniques are available for the synthesis of nanobers, electrospinning is considered as a versatile technique for its capability in large-scale synthesis of polymer and ceramic bers.…”

“…Moreover, the added advantage of faceted nanoparticles in combination with 1D can offer new multi-functionalities for applications such as catalysis, batteries, DSSC and gas sensing. 6,[15][16][17][18][19][20][21][22][23][30][31][32][33][34][35][36][37][38][39] We report for the rst time a direct synthesis of hollow MgO NFs decorated with faceted MgO NPs via electrospinning, where we combine both these dimensions in a single nanoarchitecture just by the addition of a surfactant. Since MgO is an important material, which nds application in catalysis, water treatment, refractory material, photocatalysis and as an adsorbent in separation of CO 2 from the ue gases, [40][41][42][43][44][45] we have chosen MgO as the model system for our interest.…”

Surfactant-driven direct synthesis of a hierarchical hollow MgO nanofiber–nanoparticle composite by electrospinning

“…Numerous nanostructured materials with various morphologies have been explored as sensing materials for acetone sensors, including nanorods [8], hollow spheres [9], nanotubes [10], nanowires [11], nanosheets [12], and nanofibers [13]. Among these nano architectures, 1D nanofibers are attractive platforms given their unique structure, chemical stability, and high surface area-to-volume ratio [14][15][16].…”

Synthesis of In2O3 hollow nanofibers and their application in highly sensitive detection of acetone

“…Muito se estuda o ZnO na forma de pó e não na forma de nanofibras (Sim et al, 2005;Tjong;Liang 2006). Seu uso vai desde aplicações para sensores de gases até como pomada devido às suas propriedades antissépticas (Moorer et al, 1982;Wei et al, 2011), sendo o uso na área médica muito explorado, principalmente por conta de seu poder antibactericida (Lee, 2009). …”

Obtenção E Caracterização De Nanofibras Cerâmicas De Óxido De Zinco Por Eletrofiação