The escalating global health challenges, marked by an aging population and a rising Global Burden of Disease, underscore the critical need for advanced diagnostic technologies. Nanomaterials, especially transition metal-based layered double hydroxides (TM-LDHs), are emerging as key enablers in diagnostic advancements by addressing the limitations of conventional methods. TM-LDHs offer tunable properties through modifications such as doping, anion exchange, and nanostructured morphology, enhancing their surface area and catalytic activity. These materials significantly improve target enrichmentTarget enrichment, signal generationSignal generation, signal enhancementSignal enhancement, and device constructionDevice construction. This chapter explores the multifaceted roles of TM-LDHs in diagnostics, highlighting the potential of TM-LDHs to revolutionize diagnostic methods.

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Transition Metal-Based Layered Double Hydroxides for Diagnostic Applications

  • Lin Huang,
  • Chunmeng Ding,
  • Fanyu Meng,
  • Xvelian Li,
  • Yan Zhou

摘要

The escalating global health challenges, marked by an aging population and a rising Global Burden of Disease, underscore the critical need for advanced diagnostic technologies. Nanomaterials, especially transition metal-based layered double hydroxides (TM-LDHs), are emerging as key enablers in diagnostic advancements by addressing the limitations of conventional methods. TM-LDHs offer tunable properties through modifications such as doping, anion exchange, and nanostructured morphology, enhancing their surface area and catalytic activity. These materials significantly improve target enrichmentTarget enrichment, signal generationSignal generation, signal enhancementSignal enhancement, and device constructionDevice construction. This chapter explores the multifaceted roles of TM-LDHs in diagnostics, highlighting the potential of TM-LDHs to revolutionize diagnostic methods.