Re: The electrical excitation of quantum dots

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Quantum dots (QDs) can be excited electrically, but their effectiveness depends on their preparation and the medium they are in. While QDs are typically excited using UV light, passing an electrical current through a sample suspended in toluene may not yield significant light production due to toluene's insulating properties. The electrical properties of QDs and the necessary voltage or energy levels to achieve excitation in a liquid suspension are critical factors. Additionally, using an AC electric field between capacitor plates may affect the QDs differently, depending on their specific characteristics. Understanding these variables is essential for optimizing electrical excitation of QDs in various applications.
Chris Darroch
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We most often witness the presentation of quantum dots in viles or containers which are excited via UV light.

I am more interested in their electrical excitation.

Could I simply take a sample of QDs from one of those viles and passing an electrical current through that sample excite the quantum dots to produce their light?

QDs are often supplied suspended in toluene...Again...could I simple pass electrical current through such samples and expect the production of light via the QDs?

If some sort of preparation of the colloidal QDs were necessary in order to achieve electrophospherescence; what might that be and would I expect the production of more light than with application of UV .

In general terms...I am interested in the electrical excitation of QDs in liquid form/suspension.
 
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I understand thar QDs are used in live tissue and in some of these applications they are excited electrically using voltages found within tissues. But do these QDS require special preparation to respond electrically ?
 
Chris Darroch said:
QDs are often supplied suspended in toluene...Again...could I simple pass electrical current through such samples and expect the production of light via the QDs?
Is toluene an electrical insulator? How much current could flow through toluene?
What voltage or energy in eV is needed to break down the structure of toluene?

What would happen if you placed the QD in toluene between the plates of a capacitor and subjected it to an AC electric field?
 
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We would need to know the electrical properties of the QD. You can pass an electrical current through some materials and they don't get appreciably excited.
 

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