Nano Materials

Doped Nanomaterials

Quanto Nano

Product Categories

Nano Materials Used In Oil And Gas Industry

Quanto Nano

Doped Nanomaterials

Commonly used in semiconductor devices. Phosphorus doping enhances the electrical conductivity of silicon, making it crucial in the manufacturing of electronic components.
Send Inquiry

Boron-doped Diamond

Exhibits increased electrical conductivity and chemical stability. It's used in electrochemical applications, sensors, and as a material for high-performance cutting tools.
Send Inquiry

Nitrogen-doped Graphene

Enhances the electronic and catalytic properties of graphene. Used in energy storage devices, sensors, and as a catalyst in environmental applications.
Send Inquiry

Sulfur-doped Quantum Dots

These quantum dots exhibit modified optical and electronic properties. They are used in biomedical imaging, photovoltaics, and light-emitting devices. Send Inquiry

Aluminum-doped Zinc Oxide

Employed as a transparent conductive oxide in solar cells, displays, and touch screens. It combines conductivity with optical transparency.
Send Inquiry

Gallium-doped ZnO

Used in transparent conductive oxides for solar cells. It enhances the electrical conductivity while maintaining transparency, crucial for photovoltaic applications.
Send Inquiry

N-type and P-type Doped Fullerenes

Employed in organic photovoltaics and transistors. Doping modifies their electronic properties, making them suitable for use in organic electronic devices.
Send Inquiry

Antimony-doped Tin Oxide

Utilized in antistatic coatings and conductive applications. It provides a balance of conductivity and transparency, used in electronic displays and touch panels.
Send Inquiry

Indium-doped Cadmium Oxide

Known for high conductivity and transparency, used in display technology. It's pivotal in the development of transparent electrodes for touch screens and LCDs.
Send Inquiry

Cobalt-doped Titanium Dioxide

Applied in photocatalysis and solar cells. Doping with cobalt enhances its photocatalytic efficiency, useful in environmental applications and energy conversion.
Send Inquiry

Fluorine-doped Tin Oxide

Used in touch screens and solar cells. It offers high electrical conductivity and is optically transparent, ideal for optoelectronic devices.
Send Inquiry

Manganese-doped Zinc Selenide

Employed in spintronics and magneto-optical applications. This doping enhances its magnetic properties, useful in advanced data storage technologies.
Send Inquiry

Summary

Doped nanomaterials, through the introduction of impurities, acquire enhanced or entirely new properties, such as increased conductivity, altered optical characteristics, and improved catalytic activity. These materials are pivotal in the fields of electronics, energy, and nanotechnology, enabling advancements in solar cells, semiconductors, and a variety of other high-tech applications. The precise control of doping at the nanoscale leads to significant improvements in the performance and efficiency of these materials.