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Dr. XIAOHUI WU
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Address 1
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Address 2
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Title
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Dr.
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First Name
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XIAOHUI
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Last Name
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WU
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University/Institution
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case western reserve university
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Phone #
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8652085428
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Email ID
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xxw291@case.edu
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City
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cleveland
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Country
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United States
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State
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Ohio
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Zipcode
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44120
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Department
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Biomedical Engineering
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Company Name
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Area of Research
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Biodegradable contrast agents
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Area of Expertise
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polymeric biomaterials
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Brief Description of Research Interest :
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My research interests include:
(1) Rational design, synthesis, physical properties, and processing of polymeric biomaterials for various tissue engineering applications
(2)Smart biomaterials, such as biomimetic or bionic polymer/nanocomposite systems, for medical applications
(3) Fabrication of biodegradable scaffolds and microfluidics, and effects of material properties and scaffold features on in vitro cell responses and in vivo tissue growth
(4) Cancer therapy and gene therapy based on polymeric nanoparticle carriers
(5) Biodegradable macromolecular MRI/CT contrast agents
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Representative Publications :
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X. Wu, S. Wang, Biomimetic Calcium Carbonate Concentric Microgrooves withTunable Widths for Promoting MC3T3-E1 Cell Functions, 2013 Society forBiomaterials Annual Meeting and Exposition (oral presentaiton).
X. Wu, S. Wang, Biomimetic Calcium Carbonate Concentric Microgrooves withTunable Widths for Promoting MC3T3-E1 Cell Functions, Adv. Healthcare Mater 2 (2013) 326.
X. Wu, S. Wang, Regulating MC3T3-E1 Cells onDeformable Poly(ε-caprolactone) Honeycomb Films Prepared Using aSurfactant-Free Breath Figure Method in a Water-Miscible Solvent, ACS Appl. Mater. Interfaces 4 (2012) 4966 (selected as cover story).
X. Wu, S. Wang, Biomimetic Calcium Carbonate Concentric Microgrooves withTunable Widths for Promoting MC3T3-E1 Cell Functions, 4th AnnualBiomaterials Day (oral presentation).
X. Wu, S. Wang,Regulating of MC3T3-E1 Functions on Honeycomb-patterned Poly(e-caprolactone)Films with Tunable Pore Size, Spring 2012 San Diego ACS National Meeting (oral presentation).
X. Wu, S. Wang, Honeycomb-patterned polymersubstrates prepared via breath figure method and photo-crosslinking forpromoting MC3T3 cell functions, 242nd National Meeting of theAmerican-Chemical-Society (ACS) (oral presentation).
X. Wu, S. Wang, Effect of Honeycomb-patternedPolymer Substrates on Cell behavior, Student Poster Competition, The University of Tennessee, Knoxville, TN(poster presentation)
H. Zhou,X. Wu, J. Wei,X. Lu,S. Zhang,J. Shi,C. Liu,Stimulated osteoblastic proliferation by mesoporous silica xerogel with highspecific surface area, J. Mater. Sci.Mater. 22 (2011) 731.
X. Wu,J. Wei, X. Lu, Y. Lv, F. Chen, Y. Zhang, C. Liu, Chemical characteristics andhemostatic performances of ordered mesoporous calcium-doped silica xerogels, Biomed. Mater. 5 (2010) DOI: 10.1088/1748-6041/5/3/035006
H. Zhou, J. Wei, X. Wu, J. Shi, C. Liu, J. Jia,C. Dai, Q. Gan, The bio-functional role of calcium in mesoporous silicaxerogels on the responses of osteoblasts in vitro, J. Mater. Sci. Mater. 21 (2010) 2175.
X. Wu, L. Ye, K. Liu, W. Wang, J. Wei, F. Chen, C. Liu, Antibacterialproperties of mesoporous copper-doped silica xerogels, Biomed.Mater. 4 (2009) DOI: 10.1088/1748-6041/4/4/045008.
J. Wei, X. Wu, C. Liu, J. Jia, S. Heo,S. Kim, Y. Hyun, J. Shin, Fabrication of bioactive scaffold of poly(e-caprolactone) andnanofiber wollastonite composite, J.Am. Ceram. Soc., 92 (2009) 1017.
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