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  1. Metal-organic Framework

    2'-Amino-[1,1':4',1''-terphenyl]-3,3'',5,5''-tetracarboxylic acid functions as a key ligand in the formation of metal-organic frameworks (MOFs). This compound exhibits significant coordination chemistry, enabling the synthesis of innovative MOF structures with applications in gas adsorption, catalysis, and drug delivery. Its unique structural properties make it an important reagent for research in materials science and nanotechnology.
  2. Metal-organic Framework

    Dibenzo[b,d]furan-2,8-dicarboxylic acid serves as a key building block in the synthesis of metal-organic frameworks (MOFs). This compound is known for its ability to coordinate with metal ions, facilitating the formation of porous structures with potential applications in gas storage, catalysis, and separation processes. Its unique chemical properties make it a valuable reagent for researchers in the field of material science and nanotechnology.
  3. Metal-organic Framework

    3-(5-Carboxy-2-fluorophenyl)benzoic acid serves as an important building block for the synthesis of metal-organic frameworks (MOFs). This compound exhibits significant potential in enhancing the structural stability and functional properties of MOFs. It is widely utilized in research applications related to gas storage, catalysis, and sensor development, making it a valuable reagent in the field of materials science.
  4. Metal-organic Framework

    5'-(4-Carboxyphenyl)-[1,1':3',1''-terphenyl]-3,3''-dicarboxylic acid functions as a building block for metal-organic frameworks (MOFs). It exhibits strong coordination properties, facilitating the assembly of MOFs with desired porosity and structural integrity. This compound is particularly useful in research applications involving gas storage, catalysis, and separation technologies, enabling advancements in materials science and nanotechnology.
  5. Metal-organic Framework

    5,5'-Di(pyridin-4-yl)-2,2'-bithiophene functions as a key building block in the formation of metal-organic frameworks (MOFs). This compound exhibits significant coordination properties due to its aromatic pyridine rings, facilitating interactions with metal cations. Its biological activity includes potential applications in catalysis and gas storage, making it a valuable agent for researchers studying MOF synthesis and performance in various chemical processes.
  6. Metal-organic Framework

    5-(4-(Bis(4-bromophenyl)amino)phenyl)thiophene-2-carbaldehyde serves as a building block in the synthesis of metal-organic frameworks (MOFs). This compound features a thiophene moiety that enhances its structural stability and functionality. It is utilized in various research applications, including catalysis, gas storage, and environmental remediation studies, owing to its unique coordination chemistry and potential for functionalization.
  7. Metal-organic Framework

    CAU-10(Al) is a metal-organic framework (MOF) featuring hydroxyaluminum coordination with benzene-1,3-dicarboxylate ligands. This compound exhibits significant porosity and high surface area, making it suitable for applications in gas storage, separation processes, and catalysis. Its structural properties afford researchers the ability to explore material science, environmental science, and potential energy applications.
  8. Metal-organic Framework

    2,3-Diaminoterephthalic acid is a key precursor for the synthesis of metal-organic frameworks (MOFs). It plays a crucial role in the formation of stable frameworks with tunable porosity and functionality. Due to its structural properties, this compound is widely utilized in gas adsorption, catalysis, and drug delivery research applications. The versatile nature of 2,3-diaminoterephthalic acid makes it an essential reagent for materials science and nanotechnology studies.
  9. Metal-organic Framework

    1,2-Bis(2-methyl-5-phenylthiophen-3-yl)cyclopent-1-ene is a novel compound utilized in the development of metal-organic frameworks (MOFs). This compound exhibits promising properties for enhancing the stability and functionality of MOFs, making it valuable for applications in gas storage, catalysis, and sensing. Its unique structural features support research into advanced materials for various technological applications.
  10. Metal-organic Framework

    3,4'-Bipyridine-5-carboxylic acid serves as a bifunctional ligand in the synthesis of metal-organic frameworks (MOFs). This compound enables the coordination of metal ions, facilitating the formation of stable framework structures with potential applications in gas storage, separation processes, and catalysis. Its unique pyridine moieties enhance the interaction with metal centers, making it a valuable component in advanced materials research.
  11. Metal-organic Framework

    1,3,5-Tris(pyridin-3-ylethynyl)benzene functions as a key building block in the synthesis of metal-organic frameworks (MOFs). This compound exhibits notable structural stability and porosity, making it suitable for applications in gas storage, separation processes, and catalysis. Its ability to coordinate with various metal ions enhances its utility in designing functional materials for advanced research in materials science and environmental applications.
  12. Metal-organic Framework

    2,5-Dipropylterephthalic acid is a versatile ligand utilized in the synthesis of metal-organic frameworks (MOFs). It exhibits key properties that enable the formation of stable structures with tunable pore sizes and functionalization potential. This compound is particularly useful in various research applications, including gas storage, catalysis, and environmental remediation, providing a platform for the development of advanced materials with selective adsorption capabilities.
  13. Metal-organic Framework

    2,7-Dimethylbenzo[lmn][3,8]phenanthroline-2,7-diium chloride targets metal-organic frameworks (MOFs) as a structural and functional component. This compound exhibits key biological activity by facilitating the synthesis of advanced MOFs, which can be utilized in gas storage, separation processes, and catalysis research. Its unique properties make it a valuable reagent for academic and industrial applications in material science and nanotechnology.
  14. Metal-organic Framework

    1,3,4-Thiadiazole-2,5-dicarboxylic acid serves as a building block in the construction of metal-organic frameworks (MOFs). This compound is utilized for its potential to enhance gas adsorption and separation properties within MOFs, making it applicable in areas such as catalysis, sensing, and environmental remediation. Its unique structural attributes facilitate the formation of stable framework structures, enabling further exploration in materials science and nanotechnology.
  15. Metal-organic Framework

    2,3,6,7,10,11-Hexa(pyridine-3-yl)triphenylene serves as a versatile building block in the construction of metal-organic frameworks (MOFs). This compound exhibits significant potential for gas adsorption and separation applications, as well as acting as a catalyst in various chemical reactions. Its structural properties make it an important tool in material science research and the development of advanced porous materials.
  16. Metal-organic Framework

    5',5''''-Sulfonylbis(2'-amino-[1,1':3',1''-terphenyl]-4,4''-dicarboxylicacid) functions as a key ligand in the formation of metal-organic frameworks (MOFs). This compound exhibits strong coordination properties due to its multifunctional carboxylic acid and amino groups, allowing for diverse structural configurations. It is primarily utilized in materials science and catalysis research, facilitating the development of advanced porous materials with potential applications in gas storage, separation, and drug delivery systems.
  17. Metal-organic Framework

    4-([2,2':6',2''-Terpyridin]-4'-yl)-2,6-di(pyridin-4-yl)aniline is a specialized ligand for the development of metal-organic frameworks (MOFs). This compound exhibits significant binding properties that facilitate the coordination of metal ions, enabling the formation of diverse MOF structures. Its unique design allows for applications in gas storage, catalysis, and environmental remediation, making it a valuable tool in materials science and nanotechnology research.
  18. Metal-organic Framework

    N,N'-(1,4-Phenylenebis(methylene))bis(pyridin-4-amine) is a potent ligand utilized in the formation of metal-organic frameworks (MOFs). Its unique structure facilitates the coordination with metal nodes, enabling the synthesis of robust and highly porous materials. This compound serves key roles in applications such as gas storage, catalysis, and sensing. Researchers leverage its properties for developing advanced materials with tailored functionalities in various fields of chemical and material science.
  19. Metal-organic Framework

    (SP-4-1)-[5,10,15,20-Tetrakis(4-bromophenyl)-21H,23H-porphinato(2-)-κN21,κN22,κN23,κN24]nickel is a metal-organic framework (MOF) featuring nickel as a central metal ion. This compound demonstrates significant potential for applications in catalysis, gas storage, and separation processes due to its structural stability and tunable properties. Its unique porphyrin-based framework allows for enhanced interactions with various substrates, making it a valuable tool for research in material science and chemical engineering.
  20. Metal-organic Framework

    ZIF-68, a metal-organic framework (MOF), features a zinc ion coordinated with 1H-benzimidazole and 2-nitro-1H-imidazole ligands. This compound exhibits significant porosity and stability, making it suitable for applications in gas storage and separation, catalysis, and drug delivery. Its structural properties allow for efficient hosting and release of guest molecules, facilitating research in material science and nanotechnology.
  21. Metal-organic Framework

    N1-Benzyl-N1,N3,N3-tris(pyridin-2-ylmethyl)propane-1,3-diamine functions as a ligand in the formation of metal-organic frameworks (MOFs). This compound exhibits significant potential in enhancing the stability and porosity of MOF structures, making it valuable in gas storage, catalysis, and separation processes. Its unique structural features facilitate the incorporation of various metal ions, promoting diverse applications in materials science and chemical research.
  22. Metal-organic Framework

    N-(Pyridin-2-ylmethyl)isonicotinamide is a metal-organic framework (MOF) designed for the incorporation of metal ions into porous structures. This compound demonstrates significant potential for gas storage, catalysis, and separation processes due to its tunable framework properties. Its unique architecture facilitates enhanced interaction with target molecules, making it a valuable tool for research in material science and nanotechnology applications.
  23. Metal-organic Framework

    2,3,6,7-Tetrakis(2-cyanoethylthio)tetrathiafulvalene is a specialized compound targeted for use in the development of metal-organic frameworks (MOFs). This compound exhibits significant potential in enhancing the electrical conductivity and structural integrity of MOFs, making it valuable for applications in gas storage, separation, and catalysis research. Its unique structure allows for versatile modifications, facilitating advances in materials science and nanotechnology.
  24. Metal-organic Framework

    2,5-Dibromothiophene-3,4-dicarboxylic acid functions as a bifunctional building block for metal-organic frameworks (MOFs). This compound exhibits robust coordination properties, enabling its incorporation into various MOF architectures. Its unique structure and reactivity make it suitable for applications in gas storage, catalysis, and sensing platforms in materials science research.
  25. Metal-organic Framework

    UIO-66-F2 is a metal-organic framework (MOF) designed for applications in gas storage and separation. Characterized by its high porosity and stability, this compound exhibits significant adsorption properties, making it useful in carbon capture and catalysis research. Additionally, UIO-66-F2 can be utilized in drug delivery systems, offering potential in pharmaceutical applications. Its unique structural features support a variety of experimental investigations in materials science and environmental chemistry.
  26. Metal-organic Framework

    [1,1':4',1''-Terphenyl]-2',3,3'',5'-tetracarboxylic acid is a compound utilized for the synthesis of metal-organic frameworks (MOFs). This tetracarboxylic acid acts as a versatile ligand, enabling the formation of stable frameworks with various metal ions. Its exceptional structural properties make it valuable for applications in gas storage, catalysis, and sensing technologies. Researchers can leverage this compound to explore innovative solutions in materials science and nanotechnology.
  27. Metal-organic Framework

    9,10-Dimethyl-9,10-dihydro-9,10-[1,2]benzenoanthracene-2,3,6,7-tetraol serves as a metal-organic framework (MOF) known for its structural integrity and porosity. This compound exhibits significant potential in gas adsorption and storage applications, making it valuable in environmental and energy-related research. Its unique properties facilitate the exploration of novel materials for catalysis and separation technologies.
  28. Metal-organic Framework

    4-(4-Carboxyphenoxy)phthalic acid serves as a key building block for metal-organic frameworks (MOFs). This compound plays a significant role in the formation of highly porous structures, facilitating applications in gas storage, separation, and catalysis. Its unique chemical properties enable researchers to explore innovative methodologies for material development and environmental remediation.
  29. Metal-organic Framework

    Tris(N-(3-picolyl))phosphoramide acts as a ligand in the formation of metal-organic frameworks (MOFs). This compound facilitates the coordination of metal ions, promoting the development of structurally diverse and functional materials. Its applications include catalysis, gas storage, and separation processes in chemical research, making it a valuable reagent for investigating advanced materials.
  30. Metal-organic Framework

    4,4'-(Ethane-1,2-diyl)dibenzoic acid serves as a versatile ligand in the formation of metal-organic frameworks (MOFs). Its ability to coordinate with metal centers facilitates the construction of porous materials with diverse structural properties. This compound is utilized in various research applications, including gas storage, separation, and catalysis, making it valuable for materials science and nanotechnology studies.
  31. Metal-organic Framework

    2-Cyano-1,4-benzenedicarboxylic acid is a compound utilized in the synthesis of metal-organic frameworks (MOFs). It serves as a versatile ligand, coordinating with metal ions to form stable porous materials. These MOFs exhibit significant potential in applications such as gas storage, separation technologies, and catalysis, making them valuable for various research purposes in material science and chemical engineering.
  32. Metal-organic Framework

    (2S,2'S)-2,2'-(1,3,8,10-Tetraoxo-1,3,8,10-tetrahydroanthra[2,1,9-def:6,5,10-d'e'f']diisoquinoline-2,9-diyl)dipropionic acid functions as a versatile metal-organic framework (MOF) agent. This compound exhibits key biological activities that facilitate the synthesis of advanced materials, enabling applications in catalysis, gas storage, and separation technologies. Its unique structural properties make it valuable for researchers studying the design and optimization of functional MOFs for various scientific endeavors.
  33. Metal-organic Framework

    (Z)-1,2-Bis(4-carboxyphenyl)diazene 1-oxide serves as a precursor for the synthesis of metal-organic frameworks (MOFs). This compound exhibits potential utility in various research applications, including gas storage, separation processes, and catalysis. Its unique structure facilitates the formation of stable frameworks, making it a valuable reagent for scientists exploring advanced material properties and applications in nanotechnology and environmental remediation.
  34. Metal-organic Framework

    5',5''''-(4''-Carboxy-5'-(4-carboxyphenyl)-2,4,6-triethyl-[1,1':3',1''-terphenyl]-3,5-diyl)bis(([1,1':3',1''-terphenyl]-4,4''-dicarboxylic acid)) serves as a metal-organic framework (MOF) that exhibits excellent structural stability and porosity. This compound is designed for applications in gas storage and separation, as well as catalysis, due to its ability to facilitate selective molecular interactions. Its functionalized structure enhances compatibility with various substrates, making it a valuable tool in materials science and nanotechnology research.
  35. Metal-organic Framework

    5-(6-Carboxynaphthalen-2-yl)isophthalic acid serves as a critical ligand in the formation of metal-organic frameworks (MOFs). This compound is utilized in the synthesis of MOFs, which are increasingly important in applications such as gas storage, separation, and catalysis. Its unique structural features and functional groups contribute to the stability and porosity of the resulting MOFs, making it valuable in various chemical and materials research fields.
  36. Metal-organic Framework

    [2,2'-Bipyridine]-4,4'-dicarboxylic acid (tetrahydrate) serves as a ligand in the formation of metal-organic frameworks (MOFs). It plays a crucial role in coordinating with various metal centers, facilitating the synthesis of robust and porous structures. This compound is valuable in research applications involving gas storage, separation processes, and catalysis. Its ability to form stable complexes makes it a significant component in the development of advanced materials for various scientific investigations.
  37. Metal-organic Framework

    5-(6-Methylpyridin-3-yl)isophthalic acid functions as a versatile ligand in the formation of metal-organic frameworks (MOFs). This compound exhibits significant potential for applications in gas adsorption, separation processes, and catalysis. Its unique structural characteristics facilitate the development of highly porous materials, making it valuable for various chemical research endeavors.
  38. Metal-organic Framework

    4-Ethylbenzene-1,3-dicarboxylic acid is a versatile building block for metal-organic frameworks (MOFs) due to its bifunctional carboxylic acid groups. It serves as an important ligand that facilitates the coordination of metal ions, resulting in the formation of structured porous materials. These MOFs exhibit significant potential in applications such as gas storage, separation, and catalysis, making this compound valuable for research in materials science and chemical engineering.
  39. Metal-organic Framework

    2,5-Bis(5-(pyridin-2-yl)-4H-1,2,4-triazol-3-yl)thiophene is a sophisticated ligand used in the synthesis of metal-organic frameworks (MOFs). This compound demonstrates significant coordination capabilities, enabling the formation of stable structures with various metal ions. It is valuable for applications in gas storage, catalysis, and as a platform for drug delivery research, showcasing its utility in advancing materials science and bioengineering studies.
  40. Metal-organic Framework

    1,2-Bis(pyridin-4-ylthio)ethane is a ligand designed for the construction of metal-organic frameworks (MOFs). It exhibits high coordination ability with metal ions, enabling the formation of robust network structures. This compound is useful in studies related to catalysis, gas storage, and separation processes, providing a versatile tool for researchers in materials science and chemical engineering applications.
  41. Metal-organic Framework

    meso-Tetrakis(β-naphthyl)porphyrin is a metal-organic framework (MOF) compound featuring a porphyrin core modified with β-naphthyl groups. It exhibits strong coordination properties, making it suitable for metal incorporation and catalysis applications. This compound is of particular interest in research areas such as gas storage, sensing, and the development of nanomaterials, leveraging its unique structural and electronic characteristics.
  42. Metal-organic Framework

    2,2'-(1,3,6,8-Tetraoxo-1,3,6,8-tetrahydrobenzo[lmn][3,8]phenanthroline-2,7-diyl)diacetic acid functions as a ligand in metal-organic frameworks (MOFs). This compound facilitates the development of advanced materials with applications in gas storage, catalysis, and separation technologies. Its unique structural properties enhance the stability and functionality of MOFs, making it a valuable tool for researchers exploring novel porous materials in various chemical research fields.
  43. Metal-organic Framework

    N,N-Bis[(pyridin-2-yl)methyl]methanesulfonamide functions as a ligand in metal-organic frameworks (MOFs), facilitating the formation of stable coordination complexes. This compound exhibits significant potential in catalysis, gas adsorption, and sensing applications due to its tunable properties. Its unique structural characteristics make it an important reagent for research in materials science and coordination chemistry.
  44. Metal-organic Framework

    2-(2-Carboxypyridin-4-yl)terephthalic acid serves as a pivotal building block in the synthesis of metal-organic frameworks (MOFs). This compound facilitates the formation of coordination bonds with metal ions, resulting in the development of porous structures with potential applications in gas storage, separation, and catalysis. Its unique functional groups enhance the stability and reactivity of the resulting MOF, making it suitable for various research applications in materials science and chemical engineering.
  45. Metal-organic Framework

    4-Iodoisophthalic acid is a versatile building block for metal-organic frameworks (MOFs). This compound serves as a functional ligand that facilitates the formation of porous structures with potential applications in gas storage, separation, and catalysis. Its unique properties make it a valuable reagent in materials science and nanotechnology research.
  46. Metal-organic Framework

    2'-(Diphenylamino)-[1,1':4',1''-terphenyl]-4,4''-dicarboxylic acid serves as a key component in the formation of metal-organic frameworks (MOFs). This compound exhibits significant potential in catalysis and gas storage applications due to its robust structure and tunable properties. Its unique design allows for enhanced interaction with metal centers, making it suitable for various research applications in material science and environmental remediation.
  47. Metal-organic Framework

    5,5'-Sulfonyldiisophthalic acid serves as a key building block for the synthesis of metal-organic frameworks (MOFs). It facilitates the creation of highly porous materials with tunable properties, making it suitable for applications in gas storage, separation, and catalysis. Researchers can utilize this compound to engineer MOFs with enhanced structural integrity and functionality for various chemical processes.
  48. Metal-organic Framework

    2-Chloro-4,4'-bipyridine is an organic compound with applications in the development of metal-organic frameworks (MOFs). It plays a critical role as a ligand in coordinating metal ions, facilitating the formation of stable and porous structures. Research applications include catalysis, gas storage, and separation processes, making it a valuable reagent for materials science and chemical engineering studies.
  49. Metal-organic Framework

    Dibenzo[b,d]thiophene-3,7-dicarboxylic acid serves as a crucial building block in the formation of metal-organic frameworks (MOFs). This compound exhibits significant potential in catalysis, gas storage, and separation applications due to its unique structural properties. Its ability to coordinate with metal ions enhances the stability and functionality of the resulting MOFs, which are valuable in various fields, including environmental science and materials engineering. Researchers utilize this reagent to develop advanced materials with tailored properties for innovative applications.
  50. Metal-organic Framework

    meso-Tetrakis(4-chlorophenyl)porphyrin-Ni(II) is a metal-organic framework (MOF) that features a nickel(II) central metal ion complexed with tetrakis(4-chlorophenyl)porphyrin ligands. This compound exhibits unique structural properties that make it suitable for applications in catalysis, gas adsorption, and sensing. Its potential use in the development of functional materials enhances research in nanotechnology and materials science.

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