Yongnian Yan

What is he best known for?

The fields of study he is best known for:

• Biochemistry
• Mechanical engineering
• Composite material

His primary areas of study are Biomedical engineering, Rapid prototyping, Gelatin, Biocompatibility and Scaffold. Yongnian Yan combines subjects such as Regeneration and Porous medium with his study of Biomedical engineering. His Rapid prototyping study combines topics in areas such as Liver failure, Software engineering and Process.

His research in Gelatin intersects with topics in Tissue engineering, Extracellular matrix and Hepatocyte. Yongnian Yan works mostly in the field of Extracellular matrix, limiting it down to topics relating to Cell and, in certain cases, In vitro. His work deals with themes such as Bone regeneration, Composite number, Deposition and Thin film, which intersect with Scaffold.

His most cited work include:

• Generation of three-dimensional hepatocyte/gelatin structures with rapid prototyping system. (249 citations)
• Fabrication of porous scaffolds for bone tissue engineering via low-temperature deposition (225 citations)
• Fabrication of viable tissue-engineered constructs with 3D cell-assembly technique (217 citations)

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

His main research concerns Biomedical engineering, Tissue engineering, Rapid prototyping, Scaffold and Biocompatibility. His biological study spans a wide range of topics, including Cell, Gelatin, Polyurethane and PLGA. His Tissue engineering research incorporates elements of Chitosan, Polymer chemistry, Extracellular matrix, Cell biology and Coating.

His Rapid prototyping research includes elements of Manufacturing engineering and Bioartificial Organ. His Scaffold study integrates concerns from other disciplines, such as Porosity, Deposition, Extrusion and Polymer. His studies deal with areas such as Composite number, Nanotechnology and Microstructure as well as Porosity.

He most often published in these fields:

• Biomedical engineering (50.00%)
• Tissue engineering (43.02%)
• Rapid prototyping (26.74%)

What were the highlights of his more recent work (between 2008-2014)?

• Biomedical engineering (50.00%)
• Tissue engineering (43.02%)
• Scaffold (29.07%)

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

His scientific interests lie mostly in Biomedical engineering, Tissue engineering, Scaffold, PLGA and Rapid prototyping. Yongnian Yan studies Biomedical engineering, focusing on Biomaterial in particular. The study incorporates disciplines such as Extracellular matrix, Cell biology and Gelatin in addition to Tissue engineering.

As part of one scientific family, Yongnian Yan deals mainly with the area of Scaffold, narrowing it down to issues related to the Polymer, and often Nanotechnology and Scanning electron microscope. The PLGA study combines topics in areas such as Highly porous, Porosity, Spinal fusion, Composite number and Grafting. His studies in Rapid prototyping integrate themes in fields like Artificial tissue, Systems engineering and Bioartificial Organ.

Between 2008 and 2014, his most popular works were:

• Direct Fabrication of a Hybrid Cell/Hydrogel Construct by a Double-nozzle Assembling Technology: (114 citations)
• Rapid prototyping and manufacturing technology: Principle, representative technics, applications, and development trends (112 citations)
• An cell-assembly derived physiological 3D model of the metabolic syndrome, based on adipose-derived stromal cells and a gelatin/alginate/fibrinogen matrix. (102 citations)

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

• Mechanical engineering
• Biochemistry
• Composite material

Yongnian Yan spends much of his time researching Scaffold, Tissue engineering, Rapid prototyping, Biomedical engineering and Biomanufacturing. In his research, Cell and Biochemistry is intimately related to Cell biology, which falls under the overarching field of Scaffold. His Tissue engineering research is multidisciplinary, incorporating perspectives in Extracellular matrix, Gelatin and Hyaluronic acid.

His study in Gelatin is interdisciplinary in nature, drawing from both Porosity, Nanotechnology, Scanning electron microscope, Polymer and Composite number. His research integrates issues of Biocompatibility, Systems engineering and Bioartificial Organ in his study of Rapid prototyping. His Biomedical engineering research includes themes of Deposition, Layer, Double layer, Polyurethane and Regeneration.

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