M
Minglin Ma
Researcher at Cornell University
Publications - 130
Citations - 11451
Minglin Ma is an academic researcher from Cornell University. The author has contributed to research in topics: Transplantation & Self-healing hydrogels. The author has an hindex of 41, co-authored 121 publications receiving 9205 citations. Previous affiliations of Minglin Ma include Chinese Academy of Sciences & Massachusetts Institute of Technology.
Papers
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Journal ArticleDOI
Designing Superoleophobic Surfaces
Anish Tuteja,Wonjae Choi,Minglin Ma,Joseph M. Mabry,Sarah A. Mazzella,Gregory C. Rutledge,Gareth H. McKinley,Robert E. Cohen +7 more
TL;DR: It is shown how a third factor, re-entrant surface curvature, in conjunction with chemical composition and roughened texture, can be used to design surfaces that display extreme resistance to wetting from a number of liquids with low surface tension, including alkanes such as decane and octane.
Journal ArticleDOI
Size- and shape-dependent foreign body immune response to materials implanted in rodents and non-human primates
Omid Veiseh,Joshua C. Doloff,Minglin Ma,Arturo J. Vegas,Hok Hei Tam,Andrew Bader,Jie Li,Erin Langan,Jeffrey Wyckoff,Whitney S. Loo,Siddharth Jhunjhunwala,Alan Chiu,Sean M. Siebert,Katherine Tang,Jennifer Hollister-Lock,Stephanie Aresta-Dasilva,Matthew A. Bochenek,Joshua E. Mendoza-Elias,Yong Wang,Merigeng Qi,Danya M. Lavin,Michael Chen,Nimit Dholakia,Raj Thakrar,Igor Lacík,Gordon C. Weir,Jose Oberholzer,Dale L. Greiner,Robert Langer,Daniel G. Anderson +29 more
TL;DR: In this paper, a broad variety of material classes significantly abrogate foreign body reactions and fibrosis in rodent and non-human primates when the spheres are larger than 1.5 mm in diameter.
PatentDOI
Superhydrophobic fibers produced by electrospinning and chemical vapor deposition
TL;DR: In this paper, a versatile method to produce superhydrophobic surfaces by combining electrospinning and initiated chemical vapor deposition (iCVD) is described, and a wide variety of surfaces including electrospun polyester fibers, may be coated by the inventive method.
Journal ArticleDOI
Electrospun poly(styrene-block-dimethylsiloxane) block copolymer fibers exhibiting superhydrophobicity.
TL;DR: Calorimetric studies confirm the strong segregation between the polystyrene and poly(dimethylsiloxane) blocks and the fibers are shown by transmission electron microscopy to exhibit microphase-separated internal structures.
Journal ArticleDOI
Combinatorial hydrogel library enables identification of materials that mitigate the foreign body response in primates
Arturo J. Vegas,Arturo J. Vegas,Arturo J. Vegas,Omid Veiseh,Joshua C. Doloff,Joshua C. Doloff,Minglin Ma,Minglin Ma,Minglin Ma,Hok Hei Tam,Kaitlin M. Bratlie,Kaitlin M. Bratlie,Jie Li,Jie Li,Andrew Bader,Andrew Bader,Erin Langan,Erin Langan,Karsten Olejnik,Karsten Olejnik,Patrick Fenton,Patrick Fenton,Jeon Woong Kang,Jennifer Hollister-Locke,Matthew A. Bochenek,Alan Chiu,Alan Chiu,Sean M. Siebert,Sean M. Siebert,Katherine Tang,Katherine Tang,Siddharth Jhunjhunwala,Siddharth Jhunjhunwala,Stephanie Aresta-Dasilva,Stephanie Aresta-Dasilva,Nimit Dholakia,Nimit Dholakia,Raj Thakrar,Raj Thakrar,Thema Vietti,Thema Vietti,Michael Chen,Michael Chen,Josh Cohen,Karolina Siniakowicz,Meirigeng Qi,James J. McGarrigle,Stephen Lyle,David M. Harlan,Dale L. Greiner,Jose Oberholzer,Gordon C. Weir,Robert Langer,Robert Langer,Daniel G. Anderson,Daniel G. Anderson +55 more
TL;DR: This article used a combinatorial approach for covalent chemical modification to generate a large library of variants of one of the most widely used hydrogel biomaterials, alginate.