The scientist’s investigation covers issues in Self-healing hydrogels, Tissue engineering, Biomedical engineering, Biocompatibility and Conductive polymer. His studies deal with areas such as Chitosan and Swelling as well as Self-healing hydrogels. His work in Tissue engineering covers topics such as Nanotechnology which are related to areas like Polyester, Polypyrrole and Polymer.
Baolin Guo combines subjects such as Wound healing and Ethylene glycol with his study of Biomedical engineering. His study in Biocompatibility is interdisciplinary in nature, drawing from both Immunology and C2C12. His research in Conductive polymer tackles topics such as Polyaniline which are related to areas like Dextran.
Self-healing hydrogels, Polymer chemistry, Tissue engineering, Biocompatibility and Nanotechnology are his primary areas of study. His Self-healing hydrogels research incorporates elements of Chitosan, Ethylene glycol, Drug delivery, Conductive polymer and Biomedical engineering. His research in Conductive polymer intersects with topics in Polyaniline, Macromolecular architecture, Polymer science and Biosensor.
His study looks at the intersection of Biomedical engineering and topics like Wound healing with Hemostasis and Wound dressing. His biological study spans a wide range of topics, including Copolymer, Polyester, Nuclear chemistry, Aniline and Swelling. The various areas that Baolin Guo examines in his Tissue engineering study include Nanofiber, Regeneration, C2C12 and Scaffold.
Baolin Guo mostly deals with Self-healing hydrogels, Wound healing, Biomedical engineering, Nanotechnology and Biocompatibility. He has researched Self-healing hydrogels in several fields, including Antibiotics, Antimicrobial, Microbiology, Nanocomposite and Photothermal therapy. His Biomedical engineering research integrates issues from Rotator cuff, Cardiac muscle tissue and Regeneration.
The Nanotechnology study combines topics in areas such as Conductive polymer and Polymer. As a part of the same scientific family, Baolin Guo mostly works in the field of Conductive polymer, focusing on Regenerative medicine and, on occasion, Tissue engineering. As a part of the same scientific study, he usually deals with the Biocompatibility, concentrating on Granulation tissue and frequently concerns with Drug carrier and Acrylate.
Baolin Guo mainly focuses on Self-healing hydrogels, Wound healing, Biomedical engineering, Self-healing and Antibacterial activity. His Self-healing hydrogels research includes elements of Antibiotics, Antibiotic resistance, Antimicrobial, Microbiology and Poloxamer. His research integrates issues of Biomaterial, Hemostat, Gelatin and Wound dressing in his study of Wound healing.
His Biomedical engineering research is multidisciplinary, incorporating perspectives in Chitosan, Nanocomposite and Photothermal therapy. His Antibacterial activity investigation overlaps with Biocompatibility, Granulation tissue, Skin repair, Polymer and Supramolecular chemistry. The concepts of his Biocompatibility study are interwoven with issues in Nanofiber and Electrospinning.
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Antibacterial anti-oxidant electroactive injectable hydrogel as self-healing wound dressing with hemostasis and adhesiveness for cutaneous wound healing
Xin Zhao;Hao Wu;Baolin Guo;Ruonan Dong.
Biodegradable and electrically conducting polymers for biomedical applications
Baolin Guo;Baolin Guo;Lidija Glavas;Ann-Christine Albertsson.
Progress in Polymer Science (2013)
Adhesive Hemostatic Conducting Injectable Composite Hydrogels with Sustained Drug Release and Photothermal Antibacterial Activity to Promote Full‐Thickness Skin Regeneration During Wound Healing
Yongping Liang;Xin Zhao;Tianli Hu;Baojun Chen.
Synthetic biodegradable functional polymers for tissue engineering: a brief review
BaoLin Guo;Peter X. Ma.
Science China-chemistry (2014)
Injectable antibacterial conductive nanocomposite cryogels with rapid shape recovery for noncompressible hemorrhage and wound healing.
Xin Zhao;Baolin Guo;Hao Wu;Yongping Liang.
Nature Communications (2018)
Antibacterial adhesive injectable hydrogels with rapid self-healing, extensibility and compressibility as wound dressing for joints skin wound healing.
Jin Qu;Xin Zhao;Yongping Liang;Tianlong Zhang.
Antibacterial and conductive injectable hydrogels based on quaternized chitosan-graft-polyaniline/oxidized dextran for tissue engineering
Xin Zhao;Peng Li;Baolin Guo;Peter X. Ma.
Acta Biomaterialia (2015)
Self-Healing Conductive Injectable Hydrogels with Antibacterial Activity as Cell Delivery Carrier for Cardiac Cell Therapy
Ruonan Dong;Xin Zhao;Baolin Guo;Peter X. Ma.
ACS Applied Materials & Interfaces (2016)
Conducting Polymers for Tissue Engineering
Baolin Guo;Peter X. Ma.
Multifunctional Stimuli-Responsive Hydrogels with Self-Healing, High Conductivity, and Rapid Recovery through Host–Guest Interactions
Zexing Deng;Yi Guo;Xin Zhao;Peter X. Ma.
Chemistry of Materials (2018)
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