Synthesis and characterization of PECVD-grown, silane-terminated silicon quantum dots

Abstract: Semiconductor quantum dots (QDs) have been the subject of intense research interest due to novel experimentally observed properties, such as tunable bandgap, phonon bottleneck, and a variety of surface effects. The control of these properties makes quantum dots a candidate for revolutionizing a variety of fields, including photovoltaics. Because silicon is such a well characterized PV material in its bulk form, it would be a good choice for QD research for application in solar cells. In addition, there is rece… Show more

“…Therefore, the nanocrystals can absorb and emit light with different energies by controlling only their size [4]. Silicon nanocrystals have been widely exploited in electronics and other areas, due to their low toxicity, and they exhibit the ability to be doped in order to become either an n-type or p-type material [5]; this fact allows generating new technologies such as sensors [6][7][8], biosensors [9][10][11][12], magnetic materials [13], photodiodes [14], Bragg reflectors [15], photonic applications [16][17][18][19][20][21], nonvolatile storage devices [22][23][24], solar cells of third generation [25][26][27][28][29] as well as tandem solar cells [30][31][32][33][34][35], among other devices [35,36].…”

Colloidal Solutions with Silicon Nanocrystals: Structural and Optical Properties

“…Therefore, the nanocrystals can absorb and emit light with different energies by controlling only their size [4]. Silicon nanocrystals have been widely exploited in electronics and other areas, due to their low toxicity, and they exhibit the ability to be doped in order to become either an n-type or p-type material [5]; this fact allows generating new technologies such as sensors [6][7][8], biosensors [9][10][11][12], magnetic materials [13], photodiodes [14], Bragg reflectors [15], photonic applications [16][17][18][19][20][21], nonvolatile storage devices [22][23][24], solar cells of third generation [25][26][27][28][29] as well as tandem solar cells [30][31][32][33][34][35], among other devices [35,36].…”

Colloidal Solutions with Silicon Nanocrystals: Structural and Optical Properties

Three-dimensional porous boron nitride with enriched defects and free radicals enables high photocatalytic activity for hydrogen evolution