RESUMEN
HgTe colloidal quantum dots (CQDs) are one of few materials that can realize near-to-midwave infrared photodetection. And the quality of HgTe CQD directly affects the performance of photodetection. In this work, we optimize the method of synthesizing HgTe CQDs to reduce the defect concentration, therefore improving the photoelectric properties. The photodetector based on HeTe CQD can respond to the light from the visible to mid-infrared band. Notably, a photoresponse to 4000 nm light at room temperature is realized. The responsivity and detectivity are 90.6 mA W-1 and 6.9 × 107 Jones under 1550 nm light illumination, which are better than these of most reported HgTe CQD photodetectors. The response speed reaches a magnitude of microseconds with a rising time of τr = 1.9 µs and a falling time of τf = 1.5 µs at 10 kHz under 1550 nm light illumination.
RESUMEN
Skeleton has long been recognized as a organ supporting body system and regulating metabolism of calcium and phosphorus. Recent researches found that bone cells, especially osteoblast and osteoclast, synthesize and secrete various bioactive molecules, such as bone morphogenetic proteins, growth factors, adipokines, inflammatory cytokines and cardiovascular bioactive peptides. The active factors produced by bone not only play important roles in the skeleton system per se by paracrine/autocrine pathway but also regulate energy metabolism, inflammatory process, endocrine homeostasis by endocrine pathway.
