More information: Seunghyun Ji et al, Nucleation‐Controlled Doping of II–VI Semiconductor Nanocrystals Mediated by Magic‐Sized Clusters, Small Science (2024). DOI: 10.1002/smsc.202400300 ...

Organic semiconductors are already being employed in solar cells and organic LEDs (OLEDs). Until now, however, little was known about how the doping molecules are integrated into their chemical ...

This article provides a thorough background regarding the doping of semiconductors and the latest research in this sector. The merging of impure particles in a pristine semiconducting material is ...

With the rapid development of advanced technologies in recent years, such as displays and transistors, interest in technologies that can precisely control doping in nanoscale semiconductors is ...

[Zachary Tong] is dipping his toes into the DIY semiconductor world, and further to the goal of keeping costs to a hobbyist scale, is experimenting with laser doping of silicon. Doping is the ...

Figure 1: Theoretical binding energies for individual Mn adsorbates on various semiconductor surfaces. To test these predictions experimentally, we prepared Mn-doped ZnSe nanocrystals with diamete ...

(Nanowerk Spotlight) Doping, which can provide charge carriers to semiconductors, is an essential technology for semiconductors and devices, and it can be classified as n- and p-doping depending on ...

Doping is the process of removing or adding electrons into a semiconductor, increasing its ability to carry electrical current. In a recent paper published in Nature Materials, Tjhe and his ...

Due to the importance of doping to the semiconductor industry, researchers worldwide have made continuing attempts at doping nanocrystals in order to achieve ever greater miniaturization and to ...

Electronic devices based on organic semiconductors promise to be lightweight, flexible, and easy to make. The materials typically have low conductivity, though, so doping is critical for ...