Guang Yang

What is he best known for?

The fields of study he is best known for:

• Polymer
• Organic chemistry
• Biochemistry

Guang Yang focuses on Bacterial cellulose, Nanotechnology, Biocompatibility, Composite material and Cellulose. Guang Yang has researched Bacterial cellulose in several fields, including Ultimate tensile strength, Nuclear chemistry, Microbial cellulose, Carbon nanotube and Polyaniline. The various areas that Guang Yang examines in his Nanotechnology study include Tissue engineering, Wound healing, Self-healing hydrogels and Gelatin.

Guang Yang works mostly in the field of Biocompatibility, limiting it down to topics relating to Natural polymers and, in certain cases, Neural tissues and Regenerative medicine. His study in the field of Polymerization, Nanofiber, Conductive polymer and Composite number also crosses realms of Thermal analysis. Guang Yang combines subjects such as Scanning electron microscope, Membrane, Polymer chemistry and Aqueous solution with his study of Cellulose.

His most cited work include:

• Present status and applications of bacterial cellulose-based materials for skin tissue repair. (285 citations)
• Utilization of bacterial cellulose in food (258 citations)
• Silk sericin: A versatile material for tissue engineering and drug delivery. (158 citations)

What are the main themes of his work throughout his whole career to date?

Guang Yang mostly deals with Bacterial cellulose, Chemical engineering, Nanotechnology, Composite material and Biocompatibility. His Bacterial cellulose study also includes fields such as

• Deformation most often made with reference to Self-healing hydrogels,
• Wound healing together with Biomedical engineering. His Chemical engineering study combines topics from a wide range of disciplines, such as Membrane, Polymer chemistry and Aqueous solution.

His study looks at the intersection of Nanotechnology and topics like Tissue engineering with Biomaterial. His biological study deals with issues like Thin film, which deal with fields such as Substrate, Laser, Superconductivity, Transmission electron microscopy and X-ray crystallography. In his research on the topic of Biocompatibility, Liposome is strongly related with In vivo.

He most often published in these fields:

• Bacterial cellulose (22.55%)
• Chemical engineering (22.55%)
• Nanotechnology (18.30%)

What were the highlights of his more recent work (between 2017-2021)?

• Bacterial cellulose (22.55%)
• Chemical engineering (22.55%)
• Nanotechnology (18.30%)

In recent papers he was focusing on the following fields of study:

Guang Yang mainly focuses on Bacterial cellulose, Chemical engineering, Nanotechnology, Biocompatibility and Biomedical engineering. Guang Yang focuses mostly in the field of Bacterial cellulose, narrowing it down to matters related to Biomaterial and, in some cases, Cell biology. Guang Yang interconnects Polyaniline and Polymer in the investigation of issues within Chemical engineering.

His research integrates issues of Tissue engineering, Bacterial polysaccharide, Regenerative medicine, Biofilm and Piezoelectricity in his study of Nanotechnology. His Biocompatibility research includes themes of Chitosan, Antibacterial activity, Self-healing hydrogels and Microcarrier. His Biomedical engineering research is multidisciplinary, incorporating perspectives in Wound healing, Polyvinyl alcohol and In vivo.

Between 2017 and 2021, his most popular works were:

• Bioprinting and its applications in tissue engineering and regenerative medicine. (115 citations)
• Current Challenges of Cancer Anti-angiogenic Therapy and the Promise of Nanotherapeutics. (78 citations)
• Fabrication of pH-electroactive Bacterial Cellulose/Polyaniline Hydrogel for the Development of a Controlled Drug Release System (54 citations)

In his most recent research, the most cited papers focused on:

• Polymer
• Organic chemistry
• Biochemistry

Guang Yang spends much of his time researching Bacterial cellulose, Nanotechnology, Chemical engineering, Biocompatibility and Biomedical engineering. He has included themes like Nanofiber and Intervertebral disc in his Bacterial cellulose study. His Nanotechnology study combines topics from a wide range of disciplines, such as Tissue engineering and High spatial resolution.

His studies deal with areas such as Ultimate tensile strength, Polyaniline and Drug release, Polymer as well as Chemical engineering. His Biocompatibility study integrates concerns from other disciplines, such as Chitosan, Natural polymers, Neural tissues, Self-healing hydrogels and Nanocarriers. His study explores the link between Biomedical engineering and topics such as Wound healing that cross with problems in SILK SERICIN and Guar gum.

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