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MOF COF Material Frontier
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  • 2024-08-15

    Today's medical and industrial cross topic design: Hydrogels in soft robots: Past, present and future
    In recent years, the rise of soft robots has driven significant developments in smart materials (and vice versa), as these materials are able to provide embodied intelligence, enabling more compact robot designs.
  • 2024-08-15

    Beyond the gut: The impact of intratumoral microbiota on tumorigenesis and treatment response
    The intratumoral microbiome (TM) refers to the microorganisms within tumor tissue, including bacteria, fungi, viruses, etc., as distinct from the gut microbiome and circulating microbiome. TM is closely related to the occurrence, development, metastasis and treatment response of tumors. This paper f
  • 2024-08-14

    Atomic interface engineering mediated metal nanoenzyme enhanced efficient photothermal catalytic tumor specific therapy
    The catalytic therapy based on tumor microenvironment (TME) responsive nanoenzymes has shown great potential in combating malignant tumors. However, their biological applications still face the problem of insufficient catalytic activity. Here, MoOx Rh metalloene nanoenzymes exhibit efficient enzymat
  • 2024-08-13

    The MOF in COF structure embedded with ion transport channels as a composite quasi solid electrolyte exhibits highly enhanced electrochemical performance
    Covalent organic frameworks (COF) materials have shown great potential as solid electrolytes (SSE) in advanced energy storage systems. However, the limitation of COF based electrolytes is their limited ion conductivity within COF pores. To overcome this challenge, many researchers have introduced io
  • 2024-08-13

    Multifunctional bioactive nano enzyme system can promote wound healing of diabetes
    The long transition from inflammation to proliferation in the wound healing process of diabetes has brought a major challenge, which is exacerbated by persistent inflammatory reaction and insufficient vascularization.
  • 2024-08-12

    Today's cross subject design of medicine and industry: drinkable in-situ forming tough hydrogel for gastrointestinal treatment
    Pills are the cornerstone of medicine, but they are difficult to swallow. Although liquid formulations are easier to ingest, they lack the ability to target therapy with excipients and cannot be used as controlled release devices. Here, we describe a drug preparation based on liquid in-situ forming
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