Description
Indium Phosphide Quantum Dots (InP/ZnS QDs) – 525 nm
Indium Phosphide Quantum Dots (InP/ZnS QDs) are semiconductor nanocrystals with diameters below 30 nm, known for their exceptional photoluminescence, tunable optical properties, and high stability. With a PL emission peak at 525 nm (green emission), these QDs feature a narrow full width at half maximum (FWHM <37 nm) and high quantum yield (>75%), making them ideal for use in display, lighting, biomedical, and energy applications.
InP Quantum Dots stand out as an eco-friendly, cadmium-free alternative to conventional Cd-based QDs. Their low toxicity and environmental compatibility make them highly desirable for industries and research fields that require sustainable materials. The ZnS shell coating improves surface passivation, brightness, and long-term stability, ensuring reliable performance in demanding conditions.
Nanographenex provides InP/ZnS QDs (525 nm) in multiple concentrations (25 mg/mL, 50 mg/mL, and 100 mg/mL) and solvents (Heptane, Octane, and Toluene), designed to meet a wide range of scientific and industrial requirements.
Product Overview
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Material: Indium Phosphide Quantum Dots (InP/ZnS QDs)
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Emission Peak (PL): 525 nm (Green emission)
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Diameter: <30 nm
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Full Width at Half Maximum (FWHM): <37 nm
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Quantum Yield (QY): >75%
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Solvents Available: Heptane, Octane, Toluene
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Concentrations: 25 mg/mL, 50 mg/mL, 100 mg/mL
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Advantages: Low toxicity, eco-friendly, narrow emission spectrum, strong optical stability
At Nanographenex, we ensure strict quality control and reproducibility, delivering InP QDs optimized for research, product development, and scalable industrial applications.
Applications
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Light Emitting Diodes (LEDs) & Displays:
InP QDs are widely used in QLED displays, OLEDs, and advanced solid-state lighting, offering bright green emission with superior brightness and efficiency. -
Biomedical Applications:
With their biocompatibility and low toxicity, InP QDs are suitable for bioimaging, diagnostics, and biosensing, providing safe alternatives for in vivo and in vitro studies. -
Electronic Devices & Optoelectronics:
Their excellent electrical and optical properties make them valuable in transistors, photodetectors, and integrated optoelectronic circuits, supporting next-generation device architectures. -
Solar Cells & Renewable Energy:
InP QDs enhance photovoltaic efficiency by extending spectral absorption into visible and near-infrared ranges, making them suitable for high-efficiency tandem solar cells and other energy-harvesting devices. -
Research & Development:
As a cadmium-free, eco-friendly material, InP QDs are heavily used in nanotechnology R&D, supporting sustainable innovation across multiple industries.