Honghuan Tu
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View article: Liver‐Inspired Polyetherketoneketone Scaffolds Simulate Regenerative Signals and Mobilize Anti‐Inflammatory Reserves to Reprogram Macrophage Metabolism for Boosted Osteoporotic Osseointegration (Adv. Sci. 25/2023)
Liver‐Inspired Polyetherketoneketone Scaffolds Simulate Regenerative Signals and Mobilize Anti‐Inflammatory Reserves to Reprogram Macrophage Metabolism for Boosted Osteoporotic Osseointegration (Adv. Sci. 25/2023) Open
Liver‐Inspired Polyetherketoneketone Scaffolds In article number 2302136, Hao Gu, Jin Wen, Xinquan Jiang, and co‐workers are inspired from the liver extracellular skeleton morphology and develop a biomimetic scaffold. The scaffold reproduc…
View article: Liver‐Inspired Polyetherketoneketone Scaffolds Simulate Regenerative Signals and Mobilize Anti‐Inflammatory Reserves to Reprogram Macrophage Metabolism for Boosted Osteoporotic Osseointegration
Liver‐Inspired Polyetherketoneketone Scaffolds Simulate Regenerative Signals and Mobilize Anti‐Inflammatory Reserves to Reprogram Macrophage Metabolism for Boosted Osteoporotic Osseointegration Open
Tissue regeneration is regulated by morphological clues of implants in bone defect repair. Engineered morphology can boost regenerative biocascades that conquer challenges such as material bioinertness and pathological microenvironments. H…
View article: Femtosecond laser direct writing quasi-phase matched type-II waveguide in lithium niobate
Femtosecond laser direct writing quasi-phase matched type-II waveguide in lithium niobate Open
In this paper, we demonstrate a quasi-phase matched type-II waveguide fabricated by femtosecond laser direct writing in Z-cut MgO doped lithium niobate. Compared with the previous work that employs type-III configuration to realize the all…