High-performance long-wavelength aggregated state fluorescence-enhanced luminescent materials | East China University of Science and Technology

High-performance long-wavelength aggregated state fluorescence-enhanced luminescent materials

New AIE red light, efficient long wave, imaging, waveguide.

Type

Material

Tags

Other resource gains

Polymer chemistry

Internal charge transfer

Solid fluorescence quenching

Fluorescence wavelength

High fluorescence quantum efficiency

Red fluorescent material dcm

Solution maturity

Early adoption / Process verification

Cooperation methods

Joint venture cooperation

Face-to-face consultation

Applicable industry

Scientific research and technology services

Applications

Biophotonic

Key innovations

The innovation lies in: developing new quinolinonitrile AIE red light materials, breaking through traditional DCM solid-state quenching, overcoming AIE short wavelength defects, and achieving high-efficiency long-wavelength red light emission.

Potential economic benefits

Overcoming the shortcomings of existing technologies, its high-performance and multifunctional characteristics are widely used in high-tech fields such as biomedicine and optoelectronic electronics. It has huge market potential and is expected to bring significant economic benefits.

Potential climate benefits

Used in optical waveguides, lasers, etc., its high quantum efficiency characteristics can improve device energy efficiency and indirectly reduce energy consumption and carbon emissions.

Solution supplier

East China University of Science and Technology

East China University of Science and Technology: Focus on the intersection of multiple disciplines such as chemical industry and materials, cultivate innovative talents, and serve national strategies and social development.

Shanghai，China

Solution details

Project description: The red fluorescent material DCM series is a typical phosphor with characteristics of intramolecular charge transfer (ICT) processes. It has three advantages: its fluorescence wavelength is greater than 600 nm; high fluorescence quantum efficiency; and easy control of its ICT process. Recently, breaking through the limitations of solid fluorescence quenching in traditional DCM systems, a new class of red quinolinonitrile aggregation induced fluorescence enhanced (AIE) red light materials have been developed, which have been successfully applied in cell imaging and optical waveguide applications.

Main features: Molecular modification regulates the stacking mode of molecules.

Technical level: This project overcomes the shortcomings of existing AIE short wavelength and successfully expands the AIE system.

Application prospects: It can be used as laser dyes, fluorescent probes, biological markers, optical waveguides, etc., and has huge application potential in many high-tech fields.

Last updated

11:20:26, Nov 04, 2025

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Green Technology Bank

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