4,4',4'',4'''-(Pyrene-1,3,6,8-Tetrayl)tetraaniline: Advanced Monomer for COFs and Research
Explore the capabilities of this pyrene-based tetraaniline, a key building block for advanced materials and scientific innovation.
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Pyrene-1,3,6,8-tetrayl)tetraaniline
As a vital organic building block, this compound serves as a critical monomer linker for the synthesis of Covalent Organic Frameworks (COFs). Its unique structure enables the creation of advanced porous materials with tailored properties for diverse applications in energy, catalysis, and separation technologies.
- Facilitating COF Synthesis: This tetraaniline derivative is instrumental in creating intricate COF structures, as seen in Py-Py-COF and TTF-Py-COF, supporting advanced COF synthesis research.
- Leveraging Pyrene Fluorescence: Its pyrene core provides inherent fluorescence, making it an excellent component for developing novel fluorescent probes and sensors for various analytical applications.
- Versatile Research Applications: Beyond COFs, it finds utility as a photosensitizer in photodynamic therapy and as a fluorescent labeling agent for biological studies, demonstrating its broad utility in materials science and beyond.
- Building Blocks for Nanomaterials: This compound acts as a fundamental organic building block for the creation of sophisticated nanomaterials, pushing the boundaries of material science innovation.
Key Advantages
Monolithic COF Construction
Its structure as a monomer linker is ideal for constructing well-defined porous materials, contributing to advancements in COF synthesis.
Tunable Optical Properties
The inherent fluorescent nature of the pyrene moiety allows for the development of materials with tunable optical responses, crucial for advanced sensing and imaging technologies.
Broad Scientific Utility
From photodynamic therapy to nanomaterial synthesis, this compound offers a wide spectrum of research opportunities, highlighting its role as a versatile organic building block.
Key Applications
COF Synthesis
Serves as a key monomer linker in the creation of various covalent organic frameworks, essential for porous material development and applications in catalysis and gas storage.
Fluorescent Probes
Utilized in the development of sensitive fluorescent probes for detecting metal ions and other analytes, leveraging its inherent fluorescent properties.
Photodynamic Therapy (PDT)
Functions as a photosensitizer in cancer treatment research, demonstrating potential in biomedical applications.
Nanomaterial Synthesis
A crucial component in the synthesis of advanced nanomaterials, contributing to innovations in fields like electronics and energy storage.