(Image: NASA) Quantum dots have found applications in composites, solar cells (Grätzel cells) and fluorescent biological labels (for example to trace a biological molecule) which use both the small ...

Qdot Conjugates are engineered fluorescent materials consisting of a Quantum dot nanocrystal core and shell of CdSe and ZnS, respectively. The nanocrystal is coated with an organic molecular layer ...

Quantum dots that are small and non-blinking offer new opportunities for dynamic single-molecule imaging in live cells. Fluorescent dyes and proteins have been invaluable for visualizing the ...

Alfa Chemistry CdTeSeS Type-II Quantum Dots Emission 700 50 nm Alfa Chemistry CdS/ZnS core-shell type quantum dots oleic acid functionalized, fluorescence ?em 450 nm, 5 mg/mL in toluene 450 nm Alfa ...

Researchers can tailor QD fluorescence by altering these parameters to suit ... (2024). The utilization of quantum dot labeling as a burgeoning technique in the field of biological imaging. RSC ...

Researchers successfully combined 1,024 silicon quantum dots with cryogenic on-chip electronics, paving the way for scalable ...

Finally, they filtered and purified the disassembled CQDs and tested their fluorescence efficiency before reassembling them into a new laser configuration. Using this process, the researchers were ...

Colloidal quantum dots are showcasing their potential beyond vibrant colors, diving deep into quantum effects such as spin coherence. Researchers are pioneering the use of these quantum properties to ...

In an article recently published in the journal Chemosensors, researchers proposed a sensitive and rapid influenza B virus ...

The simultaneous capability of colloidal QDs to sustain robust room-temperature spin quantum coherence and to engage in photochemistry inspired Prof. WU Kaifeng and his team from the Dalian Institute ...

Quantum computers have the potential of outperforming classical computers on some optimization tasks. Yet scaling up quantum ...