Catalog |
name |
Description |
price |
R-R-4917 |
[8]Cycloparaphenylene CAS No.:1217269-85-6 |
[8]Cycloparaphenylene/CAS No.:1217269-85-6 is a fascinating chemical compound with unique properties. It holds immense potential in various scientific research fields, such as nanotechnology, organic electronics, and materials science. Its remarkable structure and versatility make it a promising candidate for developing advanced materials and innovative technologies. |
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R-R-4918 |
1,4,8,11-Tetrathiacyclotetradecane CAS No.:24194-61-4 |
1,4,8,11-Tetrathiacyclotetradecane/CAS No.:24194-61-4, a chemical compound with diverse applications, is a fascinating material studied in scientific research. Its unique properties make it a valuable tool in various fields, from catalysis to organic synthesis, offering exciting possibilities for innovative advancements. |
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R-R-4919 |
[5]Cycloparaphenylene CAS No.:96100-94-6 |
[5]Cycloparaphenylene/CAS No.:96100-94-6 is a fascinating chemical compound with a unique cyclic structure. Its applications in scientific research range from developing high-performance materials to exploring novel electronic and optical properties. |
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R-R-4920 |
[6]Cycloparaphenylene CAS No.:156980-13-1 |
[6]Cycloparaphenylene/CAS No.:156980-13-1 is a fascinating chemical compound with a unique cyclic structure. It holds great potential for scientific research, particularly in areas such as nanotechnology, materials science, and organic electronics. Its exceptional properties make it a promising candidate for developing advanced materials and innovative technologies. |
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R-R-4921 |
[10]Cycloparaphenylene CAS No.:1222105-46-5 |
[10]Cycloparaphenylene/CAS No.:1222105-46-5 is a fascinating chemical compound with a unique structure composed of ten benzene rings fused together. Its exceptional properties make it a promising material for various scientific research applications, such as organic electronics, nanotechnology, and molecular sensing. |
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R-R-4922 |
1,4,7,10,13,16-Hexaoxacyclooctadecane-2-methanol CAS No.:70069-04-4 |
1,4,7,10,13,16-Hexaoxacyclooctadecane-2-methanol/CAS No.:70069-04-4, also known as HOD, is a versatile material extensively used in scientific research. Its unique structure and properties make it suitable for various applications, including catalysis, drug delivery systems, and solvent extraction. With its diverse potential, HOD continues to contribute significantly to advancements in multiple scientific fields. |
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R-R-4923 |
4-Acetylbenzo-18-crown 6-Ether CAS No.:41855-35-0 |
4-Acetylbenzo-18-crown-6 Ether/CAS No.:41855-35-0 is a versatile chemical compound used in scientific research. With its unique structure, it exhibits high perplexity and burstiness. Its applications include molecular recognition, ion extraction, and catalysis, making it an indispensable tool in various fields of study. |
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R-R-4946 |
1,11-Dioxa[11]paracyclophane CAS No.:6571-51-3 |
1,11-Dioxa[11]paracyclophane/2,12-Dioxabicyclo[11.2.2]heptadeca-13,15,16-triene/CAS No.:6571-51-3 is a versatile chemical compound used in various scientific research areas. Its unique structure allows for diverse applications, including drug development, catalysis, and materials science. With its exceptional properties, this compound holds immense potential for advancing scientific discoveries. |
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R-R-4947 |
1,4,7,10,13,16-Hexaazacyclooctadecane Hexahydrochloride CAS No.:58105-91-2 |
1,4,7,10,13,16-Hexaazacyclooctadecane Hexahydrochloride/CAS No.:58105-91-2, a fascinating chemical compound, holds immense potential in scientific research. Its versatile properties make it a valuable tool for studying molecular interactions, drug delivery systems, and catalytic processes. With its complex structure, this compound allows researchers to delve into intricate scientific investigations, leading to remarkable discoveries. |
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R-R-4948 |
1,5,9-Triazacyclododecane CAS No.:294-80-4 |
1,5,9-Triazacyclododecane/CAS No.:294-80-4, a versatile chemical compound, holds immense potential in scientific research. With its unique structure, it finds applications in various fields like catalysis, coordination chemistry, and drug development. Its complex nature allows for diverse and impactful investigations, making it an invaluable tool for scientific advancements. |
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