TBCPF CAS 954497-15-5: Exploring its Unique Fluorescence and UV Absorption
Organic fluorescent materials are the cornerstone of many modern technological advancements, from sophisticated displays to sensitive diagnostic tools. Among these, TBCPF (CAS 954497-15-5) distinguishes itself with unique photophysical properties. Understanding its specific fluorescence and UV absorption is key to unlocking its full potential.
NINGBO INNO PHARMCHEM CO., LTD. provides TBCPF, a white powder recognized for its robust performance. The chemical, with molecular formula C65H64N2, exhibits distinct spectral behaviors. Its fluorescence emission peaks (λPL) are observed at 355 nm and 370 nm when dissolved in THF (Tetrahydrofuran). These emission wavelengths are critical for applications requiring specific light outputs, such as in organic light-emitting diodes (OLEDs) or fluorescent sensors.
Complementing its emission profile, TBCPF also shows significant UV absorption. Its maximum absorption wavelength (λabs) is recorded at 297 nm in THF. This absorption characteristic is vital for applications where the material acts as a UV absorber or as part of a photophysical system that utilizes UV excitation to achieve fluorescence. The interplay between absorption and emission determines the material's efficiency and its suitability for various fluorescence-based applications.
The high purity of TBCPF, often exceeding 99% as verified by HPLC, ensures that these spectral properties are consistently delivered. When considering the purchase of such specialized chemicals, engaging with a reliable TBCPF supplier in China like NINGBO INNO PHARMCHEM CO., LTD. guarantees that the material’s performance characteristics are accurately represented and maintained. This focus on detail is what sets apart quality materials for demanding applications.
Whether you are looking to buy TBCPF for research into novel fluorescent probes or for integration into electronic devices, understanding its precise fluorescence and UV absorption spectra is fundamental. These TBCPF chemical properties are the drivers behind its utility as an advanced organic fluorescent material.
NINGBO INNO PHARMCHEM CO., LTD. provides TBCPF, a white powder recognized for its robust performance. The chemical, with molecular formula C65H64N2, exhibits distinct spectral behaviors. Its fluorescence emission peaks (λPL) are observed at 355 nm and 370 nm when dissolved in THF (Tetrahydrofuran). These emission wavelengths are critical for applications requiring specific light outputs, such as in organic light-emitting diodes (OLEDs) or fluorescent sensors.
Complementing its emission profile, TBCPF also shows significant UV absorption. Its maximum absorption wavelength (λabs) is recorded at 297 nm in THF. This absorption characteristic is vital for applications where the material acts as a UV absorber or as part of a photophysical system that utilizes UV excitation to achieve fluorescence. The interplay between absorption and emission determines the material's efficiency and its suitability for various fluorescence-based applications.
The high purity of TBCPF, often exceeding 99% as verified by HPLC, ensures that these spectral properties are consistently delivered. When considering the purchase of such specialized chemicals, engaging with a reliable TBCPF supplier in China like NINGBO INNO PHARMCHEM CO., LTD. guarantees that the material’s performance characteristics are accurately represented and maintained. This focus on detail is what sets apart quality materials for demanding applications.
Whether you are looking to buy TBCPF for research into novel fluorescent probes or for integration into electronic devices, understanding its precise fluorescence and UV absorption spectra is fundamental. These TBCPF chemical properties are the drivers behind its utility as an advanced organic fluorescent material.
Perspectives & Insights
Alpha Spark Labs
“This absorption characteristic is vital for applications where the material acts as a UV absorber or as part of a photophysical system that utilizes UV excitation to achieve fluorescence.”
Future Pioneer 88
“The interplay between absorption and emission determines the material's efficiency and its suitability for various fluorescence-based applications.”
Core Explorer Pro
“The high purity of TBCPF, often exceeding 99% as verified by HPLC, ensures that these spectral properties are consistently delivered.”