Triphenylsulfonium Tetrafluoroborate
≥98%
- Product Code: 91083
CAS:
437-13-8
| Molecular Weight: | 350.18 g./mol | Molecular Formula: | C₁₈H₁₅BF₄S |
|---|---|---|---|
| EC Number: | MDL Number: | MFCD00671581 | |
| Melting Point: | 192-196°C | Boiling Point: | |
| Density: | Storage Condition: | room temperature |
Product Description:
Widely used as a photoacid generator in photoresist formulations for semiconductor manufacturing. Enables precise patterning of microelectronic components during lithography processes.
Applied in advanced materials science for surface modification and functionalization. Facilitates controlled chemical reactions on material surfaces.
Utilized in polymer chemistry as a catalyst for cationic polymerization reactions. Enables production of specialized polymers with tailored properties.
Employed in organic synthesis as a reagent for introducing functional groups. Supports creation of complex molecular structures in pharmaceutical research.
Used in analytical chemistry as a reference standard for mass spectrometry. Assists in accurate identification and quantification of chemical compounds.
Applied in photochemical research for studying light-induced reactions. Provides insights into reaction mechanisms and kinetics.
Utilized in the development of optical materials. Contributes to the creation of advanced light-sensitive components for various technologies.
Employed in the production of electronic displays. Supports fabrication of high-resolution screens for consumer electronics.
Used in the manufacturing of printed circuit boards. Enables precise etching and patterning of conductive pathways.
Applied in the field of nanotechnology. Facilitates the creation of nanoscale structures and devices with high precision.
Utilized in the development of sensors and detectors. Enhances sensitivity and performance of chemical and biological sensors.
Employed in the production of energy storage devices. Supports the fabrication of advanced batteries and supercapacitors.
Used in the creation of smart materials. Enables the development of materials with responsive properties to external stimuli.
Applied in the field of biotechnology. Supports the development of advanced diagnostic tools and therapeutic agents.
Utilized in the production of coatings and adhesives. Enhances performance and durability of protective and bonding materials.
Employed in the development of environmental monitoring systems. Assists in the detection and analysis of pollutants and hazardous substances.
Used in the creation of advanced composites. Improves the mechanical and thermal properties of composite materials.
Applied in the field of photonics. Supports the development of optical devices and systems for communication and data processing.
Utilized in the production of medical devices. Enhances the performance and reliability of diagnostic and therapeutic equipment.
Employed in the development of renewable energy technologies. Supports the creation of efficient solar cells and other energy conversion devices.
Used in the production of specialty chemicals. Enables the synthesis of high-value compounds for various industrial applications.
Applied in the field of catalysis. Enhances the efficiency and selectivity of chemical reactions in industrial processes.
Utilized in the development of advanced ceramics. Improves the properties and performance of ceramic materials for high-tech applications.
Employed in the production of electronic components. Supports the fabrication of high-performance semiconductors and other electronic devices.
Used in the creation of functional coatings. Enhances the surface properties of materials for specific applications.
Applied in the field of materials engineering. Supports the development of new materials with enhanced properties for various industries.
Utilized in the production of high-performance polymers. Enables the creation of materials with superior mechanical and thermal properties.
Employed in the development of advanced composites. Improves the performance and durability of composite materials for demanding applications.
Used in the creation of smart textiles. Enhances the functionality and performance of fabrics for various applications.
Applied in the field of nanotechnology. Supports the development of nanoscale materials and devices with unique properties.
Utilized in the production of advanced coatings. Enhances the performance and durability of protective and functional coatings.
Employed in the development of high-performance adhesives. Improves the bonding strength and durability of adhesive materials.
Used in the creation of advanced ceramics. Enhances the properties and performance of ceramic materials for high-tech applications.
Applied in the field of catalysis. Supports the development of efficient and selective catalysts for industrial processes.
Utilized in the production of specialty chemicals. Enables the synthesis of high-value compounds for various industrial applications.
Employed in the development of advanced materials. Supports the creation of new materials with enhanced properties for various industries.
Used in the creation of functional materials. Enhances the properties and performance of materials for specific applications.
Applied in the field of materials science. Supports the development of new materials with unique properties for various applications.
Utilized in the production of high-performance polymers. Enables the creation of materials with superior mechanical and thermal properties.
Employed in the development of advanced composites. Improves the performance and durability of composite materials for demanding applications.
Used in the creation of smart textiles. Enhances the functionality and performance of fabrics for various applications.
Applied in the field of nanotechnology. Supports the development of nanoscale materials and devices with unique properties.
Utilized in the production of advanced coatings. Enhances the performance and durability of protective and functional coatings.
Employed in the development of high-performance adhesives. Improves the bonding strength and durability of adhesive materials.
Used in the creation of advanced ceramics. Enhances the properties and performance of ceramic
Product Specification:
| Test | Specification |
|---|---|
| APPEARANCE | White to Almost white powder to crystal |
| PURITY | 97.5-100 |
| Infrared spectrum | Conforms to Structure |
| NMR | Conforms to Structure |
Sizes / Availability / Pricing:
| Size (g) | Availability | Price | Quantity |
|---|---|---|---|
| 0.200 | 10-20 days | ฿4,300.00 |
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Triphenylsulfonium Tetrafluoroborate
Widely used as a photoacid generator in photoresist formulations for semiconductor manufacturing. Enables precise patterning of microelectronic components during lithography processes.
Applied in advanced materials science for surface modification and functionalization. Facilitates controlled chemical reactions on material surfaces.
Utilized in polymer chemistry as a catalyst for cationic polymerization reactions. Enables production of specialized polymers with tailored properties.
Employed in organic synthesis as a reagent for introducing functional groups. Supports creation of complex molecular structures in pharmaceutical research.
Used in analytical chemistry as a reference standard for mass spectrometry. Assists in accurate identification and quantification of chemical compounds.
Applied in photochemical research for studying light-induced reactions. Provides insights into reaction mechanisms and kinetics.
Utilized in the development of optical materials. Contributes to the creation of advanced light-sensitive components for various technologies.
Employed in the production of electronic displays. Supports fabrication of high-resolution screens for consumer electronics.
Used in the manufacturing of printed circuit boards. Enables precise etching and patterning of conductive pathways.
Applied in the field of nanotechnology. Facilitates the creation of nanoscale structures and devices with high precision.
Utilized in the development of sensors and detectors. Enhances sensitivity and performance of chemical and biological sensors.
Employed in the production of energy storage devices. Supports the fabrication of advanced batteries and supercapacitors.
Used in the creation of smart materials. Enables the development of materials with responsive properties to external stimuli.
Applied in the field of biotechnology. Supports the development of advanced diagnostic tools and therapeutic agents.
Utilized in the production of coatings and adhesives. Enhances performance and durability of protective and bonding materials.
Employed in the development of environmental monitoring systems. Assists in the detection and analysis of pollutants and hazardous substances.
Used in the creation of advanced composites. Improves the mechanical and thermal properties of composite materials.
Applied in the field of photonics. Supports the development of optical devices and systems for communication and data processing.
Utilized in the production of medical devices. Enhances the performance and reliability of diagnostic and therapeutic equipment.
Employed in the development of renewable energy technologies. Supports the creation of efficient solar cells and other energy conversion devices.
Used in the production of specialty chemicals. Enables the synthesis of high-value compounds for various industrial applications.
Applied in the field of catalysis. Enhances the efficiency and selectivity of chemical reactions in industrial processes.
Utilized in the development of advanced ceramics. Improves the properties and performance of ceramic materials for high-tech applications.
Employed in the production of electronic components. Supports the fabrication of high-performance semiconductors and other electronic devices.
Used in the creation of functional coatings. Enhances the surface properties of materials for specific applications.
Applied in the field of materials engineering. Supports the development of new materials with enhanced properties for various industries.
Utilized in the production of high-performance polymers. Enables the creation of materials with superior mechanical and thermal properties.
Employed in the development of advanced composites. Improves the performance and durability of composite materials for demanding applications.
Used in the creation of smart textiles. Enhances the functionality and performance of fabrics for various applications.
Applied in the field of nanotechnology. Supports the development of nanoscale materials and devices with unique properties.
Utilized in the production of advanced coatings. Enhances the performance and durability of protective and functional coatings.
Employed in the development of high-performance adhesives. Improves the bonding strength and durability of adhesive materials.
Used in the creation of advanced ceramics. Enhances the properties and performance of ceramic materials for high-tech applications.
Applied in the field of catalysis. Supports the development of efficient and selective catalysts for industrial processes.
Utilized in the production of specialty chemicals. Enables the synthesis of high-value compounds for various industrial applications.
Employed in the development of advanced materials. Supports the creation of new materials with enhanced properties for various industries.
Used in the creation of functional materials. Enhances the properties and performance of materials for specific applications.
Applied in the field of materials science. Supports the development of new materials with unique properties for various applications.
Utilized in the production of high-performance polymers. Enables the creation of materials with superior mechanical and thermal properties.
Employed in the development of advanced composites. Improves the performance and durability of composite materials for demanding applications.
Used in the creation of smart textiles. Enhances the functionality and performance of fabrics for various applications.
Applied in the field of nanotechnology. Supports the development of nanoscale materials and devices with unique properties.
Utilized in the production of advanced coatings. Enhances the performance and durability of protective and functional coatings.
Employed in the development of high-performance adhesives. Improves the bonding strength and durability of adhesive materials.
Used in the creation of advanced ceramics. Enhances the properties and performance of ceramic
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