Defect-enabling zirconium-based metal–organic frameworks for energy and environmental remediation applications

Reduction. The review underscores the importance of defect manipulation, including control over their distribution and type, to optimize the performance of Zr-MOFs. Through tailored defect engineering and precise selection of functional groups, researchers can enhance the selectivity and efficiency of Zr-MOFs for specific applications. Additionally, pore size manipulation influences the adsorption capacity and transport properties of Zr-MOFs, further expanding their potential in environmental remediation and energy conversion. Defective Zr-MOFs exhibit remarkable stability and synthetic versatility, making them suitable for diverse environmental conditions and allowing for the introduction of missing linkers,…

• MO
  Ministry of Education
• IN
  Iran National Science Foundation

  Award: 4025637
• TB
  Türkiye Bilimsel ve Teknolojik Araştırma Kurumu

  Awards: 120M698, 122M312
• UO
  University of Zabol

  Awards: IR-UOZ-GR-8175, IR-UOZ-GR-9381
• NS
  National Science and Technology Council

  Awards: 112-2218-E-006-022, 113-2923-E-006-006-MY2, 112-2223-E-006-003-MY3