Self‐Tandem Bio‐Heterojunctions Empower Orthopedic Implants with Amplified Chemo‐Photodynamic Anti‐Pathogenic Therapy and Boosted Diabetic Osseointegration
暂无分享,去创建一个
Rui Shu | Bin Li | Weizhong Yang | Y. Chan | D. Bai | Yi Deng | Jiacheng Shi | Xiangyu Gao | Jiamin Sun | Miaomiao He
[1] Hui Xu,et al. Bioheterojunction-Engineered Polyetheretherketone Implants With Diabetic Infectious Micromilieu Twin-Engine Powered Disinfection for Boosted Osteogenicity. , 2022, Small.
[2] Yong Han,et al. 2D Molybdenum Sulfide‐Based Materials for Photo‐Excited Antibacterial Application , 2022, Advanced healthcare materials.
[3] Xiaojun Cai,et al. Photodynamic and photothermal co-driven CO-enhanced multi-mode synergistic antibacterial nanoplatform to effectively fight against biofilm infections , 2021 .
[4] Jiyao Li,et al. Infection Micromilieu‐Activated Nanocatalytic Membrane for Orchestrating Rapid Sterilization and Stalled Chronic Wound Regeneration , 2021, Advanced Functional Materials.
[5] Xueqi Gan,et al. Growth Factor-Decorated Ti3 C2 MXene/MoS2 2D Bio-Heterojunctions with Quad-Channel Photonic Disinfection for Effective Regeneration of Bacteria-Invaded Cutaneous Tissue. , 2021, Small.
[6] Limei Li,et al. Nutrient Element Decorated Polyetheretherketone Implants Steer Mitochondrial Dynamics for Boosted Diabetic Osseointegration , 2021, Advanced science.
[7] Xi Ma,et al. Design, optimization, and nanotechnology of antimicrobial peptides: From exploration to applications , 2021, Nano Today.
[8] B. Lei,et al. Engineering Bioactive M2 Macrophage‐Polarized Anti‐Inflammatory, Antioxidant, and Antibacterial Scaffolds for Rapid Angiogenesis and Diabetic Wound Repair , 2021, Advanced Functional Materials.
[9] G. Liang,et al. Glutathione-Depleting Nanomedicines for Synergistic Cancer Therapy. , 2021, ACS nano.
[10] Yunbing Wang,et al. Dual-crosslinked mussel-inspired smart hydrogels with enhanced antibacterial and angiogenic properties for chronic infected diabetic wound treatment via pH-responsive quick cargo release , 2021 .
[11] Y. Meng,et al. A direct Z-scheme heterojunction with boosted transportation of photogenerated charge carriers for highly efficient photodegradation of PFOA: Reaction kinetics and mechanism , 2021 .
[12] Junchuan Zhang,et al. Copper ferrite heterojunction coatings empower polyetheretherketone implant with multi-modal bactericidal functions and boosted osteogenicity through synergistic photo/Fenton-therapy , 2021 .
[13] Jie Kong,et al. Conductive Antibacterial Hemostatic Multifunctional Scaffolds Based on Ti3C2Tx MXene Nanosheets for Promoting Multidrug-Resistant Bacteria-Infected Wound Healing. , 2021, ACS nano.
[14] Ruosen Xie,et al. A Dual‐Responsive Antibiotic‐Loaded Nanoparticle Specifically Binds Pathogens and Overcomes Antimicrobial‐Resistant Infections , 2021, Advanced materials.
[15] Mahesh Kumar Joshi,et al. Regenerated cellulose nanofiber reinforced chitosan hydrogel scaffolds for bone tissue engineering. , 2021, Carbohydrate polymers.
[16] Zhenjiang Ma,et al. Three-dimensional bioprinting of multicell-laden scaffolds containing bone morphogenic protein-4 for promoting M2 macrophage polarization and accelerating bone defect repair in diabetes mellitus , 2020, Bioactive materials.
[17] M. Chan-Park,et al. Metabolic Labeling Mediated Targeting and Thermal Killing of Gram-Positive Bacteria by Self-Reporting Janus Magnetic Nanoparticles. , 2020, Small.
[18] Yuting Wang,et al. 0D/2D Co3O4/TiO2 Z-Scheme heterojunction for boosted photocatalytic degradation and mechanism investigation , 2020 .
[19] Xing‐dong Zhang,et al. A biomimetically hierarchical polyetherketoneketone scaffold for osteoporotic bone repair , 2020, Science Advances.
[20] Zhuang Liu,et al. Recent progress of chemodynamic therapy-induced combination cancer therapy , 2020 .
[21] J. Bae,et al. COVID-19 and diabetes mellitus: from pathophysiology to clinical management , 2020, Nature Reviews Endocrinology.
[22] Xiaojun Han,et al. Recoverable peroxidase-like Fe3O4@MoS2-Ag nanozyme with enhanced antibacterial ability , 2020, Chemical Engineering Journal.
[23] Jun Lin,et al. GSH‐Depleted Nanozymes with Hyperthermia‐Enhanced Dual Enzyme‐Mimic Activities for Tumor Nanocatalytic Therapy , 2020, Advanced materials.
[24] J. Florez,et al. Genetics of diabetes mellitus and diabetes complications , 2020, Nature Reviews Nephrology.
[25] P. Chu,et al. A bifunctional hydrogel incorporated with CuS@MoS2 microspheres for disinfection and improved wound healing , 2020 .
[26] Siyu Lu,et al. Graphene Oxide and Adiponectin-Functionalized Sulfonated Poly(etheretherketone) with Effective Osteogenicity and Remotely Repeatable Photodisinfection , 2020 .
[27] Yufeng Zheng,et al. Rapid Photo-Sonotherapy for Clinical Treatment of Bacterial Infected Bone Implants by Creating Oxygen Deficiency Using Sulfur Doping. , 2020, ACS nano.
[28] Xiaoling Luo,et al. Advances in nanomaterials for photodynamic therapy applications: Status and challenges. , 2020, Biomaterials.
[29] Ting He,et al. Glucose Oxidase-Instructed Traceable Self-Oxygenation/Hyperthermia Dually Enhanced Cancer Starvation Therapy , 2020, Theranostics.
[30] Chengzhong Yu,et al. Antibiotic‐Free Antibacterial Strategies Enabled by Nanomaterials: Progress and Perspectives , 2019, Advanced materials.
[31] Dalong Ni,et al. Biodegradable Nanoprodrugs: “Delivering” ROS to Cancer Cells for Molecular Dynamic Therapy , 2019, Advanced materials.
[32] Peng Liu,et al. Remote eradication of biofilm on titanium implant via near-infrared light triggered photothermal/photodynamic therapy strategy. , 2019, Biomaterials.
[33] K. Nelson,et al. A new antibiotic selectively kills Gram-negative pathogens , 2019, Nature.
[34] Zhuang Liu,et al. GSH‐Depleted PtCu3 Nanocages for Chemodynamic‐ Enhanced Sonodynamic Cancer Therapy , 2019, Advanced Functional Materials.
[35] Yufeng Zheng,et al. Highly Effective and Noninvasive Near‐Infrared Eradication of a Staphylococcus aureus Biofilm on Implants by a Photoresponsive Coating within 20 Min , 2019, Advanced science.
[36] Xian-liang Song,et al. Synthesis of GO/TiO2/Bi2WO6 nanocomposites with enhanced visible light photocatalytic degradation of ethylene , 2019, Applied Catalysis B: Environmental.
[37] Wei Nie,et al. 3D printed PCL/SrHA scaffold for enhanced bone regeneration , 2019, Chemical Engineering Journal.
[38] Yu Chen,et al. Reactive Oxygen Species (ROS)-Based Nanomedicine. , 2019, Chemical reviews.
[39] Lian-Hua Fu,et al. Glucose Oxidase‐Instructed Multimodal Synergistic Cancer Therapy , 2019, Advanced materials.
[40] L. Persano,et al. Lineage‐Specific Commitment of Stem Cells with Organic and Graphene Oxide–Functionalized Nanofibers , 2018, Advanced Functional Materials.
[41] Yufeng Zheng,et al. Tuning the Bandgap of Photo-Sensitive Polydopamine/Ag3PO4/Graphene Oxide Coating for Rapid, Noninvasive Disinfection of Implants , 2018, ACS central science.
[42] H. Jeong,et al. Efficient Hydrogen Evolution Reaction Catalysis in Alkaline Media by All‐in‐One MoS2 with Multifunctional Active Sites , 2018, Advanced materials.
[43] Cijun Shuai,et al. A Multimaterial Scaffold With Tunable Properties: Toward Bone Tissue Repair , 2018, Advanced science.
[44] Mingjun Cui,et al. Polydopamine coated graphene oxide for anticorrosive reinforcement of water-borne epoxy coating , 2018 .
[45] Jingwei Hou,et al. Dopamine: Just the Right Medicine for Membranes , 2018 .
[46] C. Byrne,et al. Nonalcoholic fatty liver disease and chronic vascular complications of diabetes mellitus , 2018, Nature Reviews Endocrinology.
[47] Zhiliang Jin,et al. Peculiar synergetic effect of MoS2 quantum dots and graphene on Metal-Organic Frameworks for photocatalytic hydrogen evolution , 2017 .
[48] Cassandra Willyard. The drug-resistant bacteria that pose the greatest health threats , 2017, Nature.
[49] Mietek Jaroniec,et al. Heterojunction Photocatalysts , 2017, Advanced materials.
[50] Yuliang Zhao,et al. Functionalized Nano-MoS2 with Peroxidase Catalytic and Near-Infrared Photothermal Activities for Safe and Synergetic Wound Antibacterial Applications. , 2016, ACS nano.
[51] Gordana Vunjak-Novakovic,et al. Sequential delivery of immunomodulatory cytokines to facilitate the M1-to-M2 transition of macrophages and enhance vascularization of bone scaffolds. , 2015, Biomaterials.
[52] Lehui Lu,et al. Polydopamine and its derivative materials: synthesis and promising applications in energy, environmental, and biomedical fields. , 2014, Chemical reviews.
[53] S. Levy,et al. Antibacterial resistance worldwide: causes, challenges and responses , 2004, Nature Medicine.
[54] J. S. Macdonald. Metabolism in Diabetes Mellitus , 1911, Nature.