[HTML][HTML] Functional molecule-mediated assembled copper nanozymes for diabetic wound healing
W Huang, P Xu, X Fu, J Yang, W Jing, Y Cai… - Journal of …, 2023 - Springer
Background The complex hyperglycemic, hypoxic, and reactive oxygen species
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …
Functional molecule-mediated assembled copper nanozymes for diabetic wound healing.
W Huang, P Xu, X Fu, J Yang, W Jing, Y Cai… - Journal of …, 2023 - europepmc.org
Background The complex hyperglycemic, hypoxic, and reactive oxygen species
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …
Functional molecule-mediated assembled copper nanozymes for diabetic wound healing
W Huang, P Xu, X Fu, J Yang, W Jing… - Journal of …, 2023 - pubmed.ncbi.nlm.nih.gov
Background The complex hyperglycemic, hypoxic, and reactive oxygen species
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …
[HTML][HTML] Functional molecule-mediated assembled copper nanozymes for diabetic wound healing
W Huang, P Xu, X Fu, J Yang, W Jing… - Journal of …, 2023 - ncbi.nlm.nih.gov
Background The complex hyperglycemic, hypoxic, and reactive oxygen species
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …
Functional molecule-mediated assembled copper nanozymes for diabetic wound healing.
W Huang, P Xu, X Fu, J Yang, W Jing… - Journal of …, 2023 - search.ebscohost.com
Background: The complex hyperglycemic, hypoxic, and reactive oxygen species
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …
[PDF][PDF] Functional molecule-mediated assembled copper nanozymes for diabetic wound healing
W Huang, P Xu, X Fu, J Yang, W Jing, Y Cai, Y Zhou… - 2023 - d-nb.info
Background Diabetes is a common chronic endocrine disease and the number of people
affected is still on the rise [1–3]. Although the early acute hypoxic microenvironment due to …
affected is still on the rise [1–3]. Although the early acute hypoxic microenvironment due to …
[HTML][HTML] Functional molecule-mediated assembled copper nanozymes for diabetic wound healing
W Huang, P Xu, X Fu, J Yang… - Journal of …, 2023 - jnanobiotechnology.biomedcentral …
The complex hyperglycemic, hypoxic, and reactive oxygen species microenvironment of
diabetic wound leads to vascular defects and bacterial growth and current treatment options …
diabetic wound leads to vascular defects and bacterial growth and current treatment options …
Functional molecule-mediated assembled copper nanozymes for diabetic wound healing
W Huang, P Xu, X Fu, J Yang, W Jing… - Journal of …, 2023 - search.proquest.com
Background The complex hyperglycemic, hypoxic, and reactive oxygen species
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …
Functional molecule-mediated assembled copper nanozymes for diabetic wound healing.
W Huang, P Xu, X Fu, J Yang, W Jing, Y Cai… - Journal of …, 2023 - go.gale.com
Background The complex hyperglycemic, hypoxic, and reactive oxygen species
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …
microenvironment of diabetic wound leads to vascular defects and bacterial growth and …
[引用][C] Functional molecule-mediated assembled copper nanozymes for diabetic wound healing
W Huang, P Xu, X Fu, J Yang, W Jing, Y Cai, Y Zhou… - 2023 - europepmc.org
Background Diabetes is a common chronic endocrine disease and the number of people
affected is still on the rise [1–3]. Although the early acute hypoxic microenvironment due to …
affected is still on the rise [1–3]. Although the early acute hypoxic microenvironment due to …