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  1. Metal-organic Framework

    But-2-yne-1,4-diyl diisonicotinate serves as a ligand to form metal-organic frameworks (MOFs). It exhibits potential in applications related to gas storage, separation, and catalysis. Its structural properties enable the synthesis of MOFs with tailored functionalities for various chemical research applications.
  2. Metal-organic Framework

    2'-Amino-5'-(trifluoromethyl)-[1,1':3',1''-terphenyl]-4,4''-dicarboxylic acid functions as a ligand in metal-organic frameworks (MOFs). This compound exhibits significant potential for applications in gas storage, separation, and catalysis owing to its unique structural characteristics. Its synthesis and integration into MOF systems can enhance the stability and porosity of materials for various industrial and environmental applications.
  3. Metal-organic Framework

    1,5-Naphthalenedicarboxylic acid serves as a key building block in the formation of metal-organic frameworks (MOFs). This compound is utilized in various research applications, including gas storage, separation processes, and catalysis, due to its capacity to coordinate with metal ions and form stable, porous structures. Its unique structural properties make it valuable for the development of advanced materials in fields such as materials science and nanotechnology.
  4. Metal-organic Framework

    4,4'-((1E,1'E)-1,4-Phenylenebis(ethene-2,1-diyl))dibenzoic acid serves as an essential building block for metal-organic frameworks (MOFs). This compound exhibits significant potential for applications in gas storage, catalysis, and drug delivery due to its structural versatility and tunable porosity. Its ability to facilitate the formation of intricate network structures makes it a valuable tool in material science and nanotechnology research.
  5. Metal-organic Framework

    1,1,2,2-Tetrakis(4-(1H-pyrazol-4-yl)phenyl)ethene functions as a building block for metal-organic frameworks (MOFs). This compound exhibits robust structural characteristics ideal for gas adsorption and separation applications. Its unique properties make it a valuable tool for research in materials science and catalysis, particularly in the development of porous solid structures for energy storage and environmental remediation.
  6. Metal-organic Framework

    (2R,3R,4R,5S)-1,6-Bis(dodecylamino)hexane-2,3,4,5-tetraol serves as a building block for metal-organic frameworks (MOFs). This compound exhibits enhanced stability and selectivity, making it suitable for various applications in gas storage, separation, and catalysis. Its unique structural properties facilitate the design and development of advanced materials for research in environmental science and materials chemistry.
  7. Metal-organic Framework

    5,5'-(Dimethylsilanediyl)diisophthalic acid serves as a versatile building block for the synthesis of metal-organic frameworks (MOFs). This compound contains multiple carboxylic acid groups that facilitate coordination with metal ions, enabling the formation of robust crystalline networks. Its applications extend to gas storage, catalysis, and environmental remediation, making it a valuable reagent for researchers in materials science and supramolecular chemistry.
  8. Metal-organic Framework

    Benzene-1,2,3,4-tetracarboxylic acid serves as a key ligand in the formation of metal-organic frameworks (MOFs). Its tetracarboxylic structure enhances coordination with metal ions, leading to the development of porous materials with specific applications in gas storage, separation, and catalysis. Research utilizing this compound can contribute to advancements in materials science, environmental remediation, and energy storage technologies.
  9. Metal-organic Framework

    4,4',4'',4''',4'''',4'''''-(5,6,7,8,13,14,15,16,21,22,23,24-Dodecadehydrotribenzo[a,g,m]cyclooctadecene-2,3,10,11,18,19-hexayl)hexakis[benzoicacid] serves as a versatile metal-organic framework (MOF) designed for various applications in materials science. This compound exhibits significant stability and porosity, enabling gas adsorption and separation processes. Its unique structural features make it suitable for research in catalysis, drug delivery, and environmental remediation.
  10. Metal-organic Framework

    5-[3-Carboxy-5-(hydroxymethyl)phenoxy]-1,3-benzenedicarboxylic acid functions as a ligand in metal-organic frameworks (MOFs). It exhibits significant coordination properties that facilitate the formation of stable MOF structures. This compound is utilized in research applications involving gas storage, catalysis, and the development of advanced materials with tunable properties.
  11. Metal-organic Framework

    5-Phosphonoisophthalic acid serves as a key building block for metal-organic frameworks (MOFs), facilitating the assembly of porous structures with well-defined properties. Its phosphonic acid groups enhance metal coordination, improving stability and functionality in various applications. This compound is particularly useful for research in gas storage, separation processes, and catalysis, making it valuable in material science and chemical engineering studies.
  12. Metal-organic Framework

    4,6-Dibromoisophthalic acid is a versatile ligand that serves as a building block for metal-organic frameworks (MOFs). Its unique molecular structure facilitates coordination with various metal ions, enhancing the stability and porosity of the resulting frameworks. Research applications include gas storage, catalysis, and drug delivery, making it an essential reagent for studies in material science and nanotechnology.
  13. Metal-organic Framework

    Iron(III) meso-tetraphenylporphine-μ-oxo dimer functions as a metal-organic framework (MOF) with potential applications in catalysis and material science. Its unique structural properties contribute to its ability to facilitate electron transfer processes, making it relevant for studies in photochemistry and sensor development. Researchers may utilize this compound to explore innovative solutions in energy conversion and storage technologies.
  14. Metal-organic Framework

    2,2'-((Propane-2,2-diylbis(4,1-phenylene))bis(methylene))bis(oxirane) functions as a metal-organic framework (MOF) that enables the formation of porous structures with tunable properties. This compound demonstrates potential for applications in gas storage, separation technologies, and catalysis. Its unique architecture offers insights into the design of advanced materials for environmental and energy-related research.
  15. Metal-organic Framework

    3,3'-(1,3,5,7-Tetraoxopyrrolo[3,4-f]isoindole-2,6(1H,3H,5H,7H)-diyl)dibenzoic acid functions as a crucial ligand in the formation of metal-organic frameworks (MOFs). This compound exhibits significant coordination properties, facilitating the assembly of metal centers into robust porous structures. Its applications extend to gas storage, catalysis, and sensing, thereby contributing to advancements in materials science and environmental technology.
  16. Metal-organic Framework

    (3R)-4-Benzyl-5-oxomorpholine-3-carboxylic acid is a compound designed to serve as a ligand in metal-organic frameworks (MOFs). It facilitates the formation of stable and versatile MOF structures, contributing to applications in gas storage, separation processes, and catalysis. This reagent is valuable for researchers investigating the synthesis and functionality of advanced materials in the field of coordination chemistry.
  17. Metal-organic Framework

    5,5'-(Terephthaloylbis(azanediyl))diisophthalic acid is a key ligand utilized in the synthesis of metal-organic frameworks (MOFs). This compound plays a crucial role in coordinating metal ions, enabling the formation of porous structures that are significant for gas storage, separation processes, and catalysis. Its unique structural properties make it an important tool in material science and organic chemistry research.
  18. Metal-organic Framework

    2,3,4,5,6-Pentaiodobenzoic acid is a versatile ligand that serves as a key building block in the synthesis of metal-organic frameworks (MOFs). Its ability to coordinate with various metal centers facilitates the formation of structured and functional materials. This compound is utilized in research applications focused on gas storage, catalysis, and adsorption studies due to its unique properties and structural versatility.
  19. Metal-organic Framework

    1,1′-[(2,5-Dimethyl-1,4-phenylene)bis(methylene)]bis[1H-imidazole] is a metal-organic framework (MOF) known for its capacity to facilitate gas adsorption and separation. This compound exhibits unique structural properties that enhance its performance in various applications, including catalysis and hydrogen storage. Its ability to form stable complexes with different metal ions makes it a valuable reagent for research in materials science and nanotechnology.
  20. Metal-organic Framework

    2-Methyl-4,6-di(pyridin-4-yl)-1,3,5-triazine functions as a pivotal building block in the construction of metal-organic frameworks (MOFs). This compound facilitates the formation of porous materials capable of gas adsorption and storage, making it essential for research in catalysis, gas separation, and chemical sensing applications. Its structural properties enable the development of innovative materials for various functional applications in materials science and nanotechnology.
  21. Metal-organic Framework

    2-(3-Methyl-1H-1,2,4-triazol-5-yl)pyridine serves as a versatile ligand in metal-organic frameworks (MOFs). This compound exhibits significant coordination properties that enhance the stability and functionality of MOFs, making it suitable for applications in gas storage, separation processes, and catalysis. Its unique structural characteristics contribute to the development of advanced materials for various research applications in materials science and chemistry.
  22. Metal-organic Framework

    4,4',4"-(Benzene-1,3,5-triyltris(ethene-2,1-diyl))tribenzoic acid functions as a building block for metal-organic frameworks (MOFs). This compound exhibits significant potential in catalysis, gas storage, and separation processes. Its structural properties facilitate the design of advanced materials for various applications, including environmental remediation and energy storage research.
  23. Metal-organic Framework

    4,4'-([4,4'-Bipyridine]-2,6-diyl)dibenzoic acid serves as a versatile ligand in the construction of metal-organic frameworks (MOFs). This compound exhibits the ability to form stable coordination complexes with metal ions, enabling enhanced structural diversity and tunability in MOF design. Its applications extend to catalysis, gas storage, and sensing, making it an important reagent for researchers in materials science and nanotechnology.
  24. Metal-organic Framework

    meso-Tetra (2-carboxyphenyl) porphine is a metal-organic framework (MOF) known for its ability to coordinate with various metal ions, facilitating the formation of porous structures. This compound demonstrates significant potential in gas adsorption, catalysis, and as a scaffold for drug delivery systems. Its versatile chemical properties make it a valuable reagent in materials science and nanotechnology research applications.
  25. Metal-organic Framework

    ZIF-4 is a metal-organic framework (MOF) that demonstrates exceptional porosity and structural stability. Its unique properties make it suitable for applications in gas storage, separation, and catalysis. Researchers utilize ZIF-4 in studies focused on materials science, environmental science, and chemical engineering to explore its effectiveness in various functional roles within complex systems.
  26. Metal-organic Framework

    Tetraethyl [4,4'-bipyridine]-2,2',6,6'-tetracarboxylate primarily functions as a ligand in the synthesis of metal-organic frameworks (MOFs). Its structure facilitates coordination with metal ions, leading to the formation of diverse porous materials. These MOFs are used in various applications, including gas storage, separation processes, and catalysis in chemical reactions. The compound is essential for researchers exploring novel MOF designs and their potential uses in nanotechnology and environmental science.
  27. Metal-organic Framework

    4,4′,4′′,4′′′-(21H,23H-Porphine-5,10,15,20-tetrayl)tetrakis[N,N-diphenylbenzenamine] serves as a metal-organic framework (MOF) with significant applications in catalysis and gas adsorption. This compound exhibits unique structural properties, enabling efficient interactions with various analytes. Its design facilitates studies on material science and nanotechnology, particularly in the development of advanced porous materials for environmental and energy-related applications.
  28. Metal-organic Framework

    Di(1H-pyrazol-4-yl)methane is a ligand that forms metal-organic frameworks (MOFs), facilitating coordination interactions with metal ions. Its unique structural properties enable the development of porous materials with applications in gas storage, separation, and catalysis. This compound is valuable for researchers exploring novel frameworks for environmental remediation and energy-related applications.
  29. Metal-organic Framework

    3,6-Diaminopyrazine-2,5-dicarboxylic acid serves as a key building block for metal-organic frameworks (MOFs). This compound facilitates the formation of MOFs with potential applications in gas storage, separation, and catalysis. Its unique structural properties support the development of advanced materials for various chemical research applications, particularly in the fields of materials science and nanotechnology.
  30. Metal-organic Framework

    1H,1'H-3,3'-Bipyrazole, a key building block for metal-organic frameworks (MOFs), exhibits significant chelation properties with various metal ions. This compound is utilized in the synthesis of MOFs, which are important for applications in gas storage, separation, and catalysis. Its structural versatility and bonding characteristics make it a valuable reagent for researchers exploring advanced material science and coordination chemistry.
  31. Metal-organic Framework

    4,4′-[[(4-Carboxyphenyl)methyl]imino]bis[benzoic acid] is a ligand designed for the synthesis of metal-organic frameworks (MOFs). This compound exhibits strong coordination properties, enabling the formation of stable MOF structures with potential applications in gas storage, catalysis, and separation processes. Its unique functional groups provide versatility in designing porous materials for advanced research in materials science and nanotechnology.
  32. Metal-organic Framework

    6-(3,5-Dimethyl-1H-pyrazol-1-yl)pyridine-3-carboxylic acid is a versatile ligand for the synthesis of metal-organic frameworks (MOFs). This compound exhibits significant coordination properties, enabling the formation of stable complexes with various metal centers. Its unique structural features make it suitable for applications in gas storage, catalysis, and drug delivery systems in chemical research. Researchers can leverage its properties to explore innovative solutions in materials science and nanotechnology.
  33. Metal-organic Framework

    5-(5,5-Dioxido-10H-phenothiazin-10-yl)isophthalic acid serves as a metal-organic framework (MOF), functioning as both a ligand and structural element in MOF synthesis. This compound demonstrates significant potential in catalysis, gas storage, and separation applications due to its unique coordination properties. It is particularly useful for researchers exploring novel materials for environmental and energy-related research.
  34. Metal-organic Framework

    4,4'-Dihydroxy-[1,1'-biphenyl]-2,2'-dicarboxylic acid is a compound utilized in the formation of metal-organic frameworks (MOFs). This versatile building block exhibits strong coordination abilities, facilitating the synthesis of MOFs with tailored porosity and functionality. Its applications extend to gas absorption studies, catalysis, and environmental remediation, making it a valuable reagent for researchers in material science and nanotechnology.
  35. Metal-organic Framework

    2,2'-Diethynyl-1,1'-binaphthalene is a bifunctional ligand designed for the formation of metal-organic frameworks (MOFs). This compound exhibits significant potential for enhancing gas storage and separation due to its high surface area and tunable porosity. Its unique structural properties make it a valuable tool for researchers exploring applications in catalysis, molecular sensing, and energy storage within the framework of advanced material science.
  36. Metal-organic Framework

    Diethyl 2,5-di(1H-imidazol-1-yl)terephthalate functions as a metal-organic framework (MOF) extensively utilized for gas adsorption and storage applications. This compound exhibits tunable porosity and exceptional stability, making it suitable for catalysis and separation processes. Its ability to form coordinated bonds with metal ions enhances its potential in various research domains, including environmental and energy-related studies.
  37. Metal-organic Framework

    4'-((4-Carboxyphenyl)ethynyl)-2',5'-dimethoxy-[1,1'-biphenyl]-4-carboxylic acid serves as a multifunctional ligand in the synthesis of metal-organic frameworks (MOFs). This compound exhibits excellent coordination properties with metal ions, facilitating the construction of porous materials with potential applications in gas storage, separation, and catalysis. Its structural features make it suitable for advanced research in material science and nanotechnology.
  38. Metal-organic Framework

    Diquinoxalino[2,3-a:2',3'-c]phenazine-2,3,8,9,14,15-hexacarboxylic acid acts as a building block for metal-organic frameworks (MOFs). This compound demonstrates significant potential in enhancing gas adsorption properties and catalysis applications. It is suitable for research in materials science, environmental science, and energy storage, where the development of efficient MOFs is crucial for advancing technologies.
  39. Metal-organic Framework

    N-(Pyrazin-2-yl)benzamide serves as a building block for metal-organic frameworks (MOFs). This compound showcases significant potential in enhancing gas adsorption and separation processes due to its unique structural properties. It is essential for researchers focusing on materials science, catalysis, and environmental applications such as carbon capture and storage. The versatility of N-(Pyrazin-2-yl)benzamide facilitates its utilization in the development of advanced functional materials.
  40. Metal-organic Framework

    PCN-222(Mn) is a metal-organic framework (MOF) that serves as a porous material for gas storage and separation applications. It exhibits high surface area and tunable pore sizes, making it suitable for various catalysis and adsorption studies. Research applications include exploration in carbon capture, hydrogen storage, and drug delivery systems.
  41. Metal-organic Framework

    Tris(perfluorophenyl) 2,2',2''-nitrilotriacetate functions as a metal-organic framework (MOF), characterized by its ability to coordinate metal ions through its nitrilotriacetate groups. This compound exhibits remarkable stability and porosity, making it suitable for applications in gas storage, separation processes, and catalysis. Its unique chemical structure and functional properties position it as a valuable reagent for researchers exploring advanced materials in the field of nanotechnology and environmental science.
  42. Metal-organic Framework

    2,4,6-Triethylbenzene-1,3,5-tricarboxylic acid serves as a key precursor in the synthesis of metal-organic frameworks (MOFs). This compound facilitates the formation of robust MOF structures that have applications in gas storage, separation, and catalysis. Its unique functionality enables the development of advanced materials for various chemical and environmental applications.
  43. Metal-organic Framework

    Dimethyl 4-oxo-1,4-dihydropyridine-2,6-dicarboxylate is a compound recognized for its role in the formation of metal-organic frameworks (MOFs). This compound serves as a versatile building block due to its ability to coordinate with metal ions, facilitating the synthesis of porous structures. Research applications include gas storage, separation technologies, and catalysis, making it a valuable tool in materials science and chemical engineering investigations.
  44. Metal-organic Framework

    Pyridinium, 2,2′,2′′,2′′′-(21H,23H-porphine-5,10,15,20-tetrayl)tetrakis[1-ethyl-, tetrachloride] serves as a pivotal metal-organic framework (MOF). This compound exhibits unique structural properties that facilitate various catalytic and adsorption processes. Its applications include use in gas storage, separation technologies, and as a potential support for sensors, making it valuable for advanced material research and development.
  45. Metal-organic Framework

    4,4',4''-Methanetriyltribenzoic acid serves as a crucial building block for the synthesis of metal-organic frameworks (MOFs). Its unique structural properties facilitate the formation of stable MOF architectures, which are valuable in applications such as gas storage, catalysis, and separation processes. This compound is instrumental in advancing research in materials science and nanotechnology.
  46. Metal-organic Framework

    4,4'-Dibromo-[1,1'-biphenyl]-2,2'-dicarboxylic acid functions as a ligand in the formation of metal-organic frameworks (MOFs). This compound exhibits significant potential for enhancing the structural stability and functionality of MOFs. It is applicable in various research areas, including catalysis, gas storage, and separation processes. Its unique properties make it suitable for studies in materials science and nanotechnology.
  47. Metal-organic Framework

    5,5'-(Selenophene-2,5-diyl)diisophthalic acid serves as a building block for metal-organic frameworks (MOFs), facilitating the synthesis of robust and versatile structures. This compound exhibits significant potential in gas adsorption, storage, and separation applications, making it valuable for research in materials science and environmental engineering. Its unique properties enable the development of advanced materials for catalysis and sensing technologies.
  48. Metal-organic Framework

    [1,1':4',1'':4'',1'''-Quaterphenyl]-2,2''',4,4'''-tetracarboxylic acid is a novel ligand for the design and synthesis of metal-organic frameworks (MOFs). This compound exhibits functionality that enhances the stability and efficiency of MOFs, making it valuable for applications in gas storage, separation processes, and catalysis. Its unique structural properties allow for tailored interactions with various metal ions, facilitating the development of advanced materials for a range of chemical research applications.
  49. Metal-organic Framework

    (Silanetetrayltetrakis(benzene-4,1-diyl))tetrakis(phosphonic acid) serves as a precursor for the synthesis of metal-organic frameworks (MOFs). This compound features phosphonic acid groups that enhance metal coordination, promoting stability and functionality in the resulting MOF structures. Its applications include gas storage, separation processes, and catalysis in various chemical reactions, making it valuable for research in materials science and nanotechnology.
  50. Metal-organic Framework

    4,4',4'',4'''-([1,1'-Biphenyl]-4,4'-diyldinitrilo)tetrakis[benzoic acid] functions as a ligand in the formation of metal-organic frameworks (MOFs). This compound demonstrates the ability to coordinate with metal ions, facilitating the construction of porous structures with potential applications in gas storage, separation processes, and catalysis. Its structural properties enable researchers to explore advanced materials for various environmental and industrial applications.

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