Access the full text.
Sign up today, get DeepDyve free for 14 days.
Tetsutaro Kikuchi, Tatsuya Shimizu, Masanori Wada, M. Yamato, T. Okano (2014)
Automatic fabrication of 3-dimensional tissues using cell sheet manipulator technique.Biomaterials, 35 8
Alessandra Zucca, K. Yamagishi, T. Fujie, S. Takeoka, V. Mattoli, F. Greco (2015)
Roll to roll processing of ultraconformable conducting polymer nanosheetsJournal of Materials Chemistry C, 3
(2010)
3 , ra35 ; b) P. D. Yurchenco , Cold Spring Harbor Perspect
T. Fujie, S. Ahadian, Hao Liu, Haixin Chang, S. Ostrovidov, Hongkai Wu, Hojae Bae, K. Nakajima, H. Kaji, A. Khademhosseini (2013)
Engineered nanomembranes for directing cellular organization toward flexible biodevices.Nano letters, 13 7
T. Fujie, Y. Okamura, S. Takeoka (2011)
Fabrication, Properties, and Biomedical Applications of Nanosheets
Sung-Hoon Park, Sangeui Lee, D. Moreira, P. Bandaru, I. Han, D. Yun (2015)
Bioinspired superhydrophobic surfaces, fabricated through simple and scalable roll-to-roll processingScientific Reports, 5
L. Ricotti, T. Fujie, H. Vazão, G. Ciofani, R. Marotta, R. Brescia, C. Filippeschi, I. Corradini, M. Matteoli, V. Mattoli, L. Ferreira, A. Menciassi (2013)
Boron Nitride Nanotube-Mediated Stimulation of Cell Co-Culture on Micro-Engineered HydrogelsPLoS ONE, 8
(2013)
Preparation of free-standing porous polymer nanosheets with cellular organization
S. Shin, Hojae Bae, J. Cha, J. Mun, Ying-Chieh Chen, H. Tekin, H. Shin, S. Farshchi, M. Dokmeci, Shirley Tang, A. Khademhosseini (2012)
Carbon nanotube reinforced hybrid microgels as scaffold materials for cell encapsulation.ACS nano, 6 1
H. Kaji, Takeshi Ishibashi, K. Nagamine, M. Kanzaki, M. Nishizawa (2010)
Electrically induced contraction of C2C12 myotubes cultured on a porous membrane-based substrate with muscle tissue-like stiffness.Biomaterials, 31 27
J. Choi, Yunxian Piao, T. Seo (2014)
Circumferential alignment of vascular smooth muscle cells in a circular microfluidic channel.Biomaterials, 35 1
X. Qiu, Haizhou Yu, Madhavan Karunakaran, Neelakanda Pradeep, S. Nunes, K. Peinemann (2013)
Selective separation of similarly sized proteins with tunable nanoporous block copolymer membranes.ACS nano, 7 1
F. Greco, T. Fujie, L. Ricotti, S. Taccola, B. Mazzolai, V. Mattoli (2013)
Microwrinkled conducting polymer interface for anisotropic multicellular alignment.ACS applied materials & interfaces, 5 3
T. Fujie, Sho Furutate, Daisuke Niwa, S. Takeoka (2010)
A nano-fibrous assembly of collagen–hyaluronic acid for controlling cell-adhesive propertiesSoft Matter, 6
Hong Zhang, S. Takeoka (2012)
Morphological Evolution within Spin-Cast Ultrathin Polymer Blend Films Clarified by a Freestanding MethodMacromolecules, 45
A. Ghaemmaghami, M. Hancock, Helen Harrington, H. Kaji, A. Khademhosseini (2012)
Biomimetic tissues on a chip for drug discovery.Drug discovery today, 17 3-4
X'avia Chan, John McDermott, K. Siu (2007)
Identification of secreted proteins during skeletal muscle development.Journal of proteome research, 6 2
Matthew Wolf, Kerry Daly, J. Reing, S. Badylak (2012)
Biologic scaffold composed of skeletal muscle extracellular matrix.Biomaterials, 33 10
T. Fujie, Yuko Kawamoto, H. Haniuda, A. Saito, Koki Kabata, Yukio Honda, Eriko Ohmori, T. Asahi, S. Takeoka (2013)
Selective Molecular Permeability Induced by Glass Transition Dynamics of Semicrystalline Polymer Ultrathin FilmsMacromolecules, 46
Samuel McClugage, Frank Low (1984)
Microdissection by ultrasonication: porosity of the intestinal epithelial basal lamina.The American journal of anatomy, 171 2
C. Kuo, Yen-Yi Chen, Shih‐Yuan Lu (2009)
A facile route to create surface porous polymer films via phase separation for antireflection applications.ACS applied materials & interfaces, 1 1
Vahid Hosseini, S. Ahadian, S. Ostrovidov, Gulden Camci-Unal, Song Chen, H. Kaji, M. Ramalingam, A. Khademhosseini (2012)
Engineered contractile skeletal muscle tissue on a microgrooved methacrylated gelatin substrate.Tissue engineering. Part A, 18 23-24
J. Sanes (2003)
The Basement Membrane/Basal Lamina of Skeletal Muscle*The Journal of Biological Chemistry, 278
T. Fujie, Xuetao Shi, S. Ostrovidov, X. Liang, K. Nakajima, Yin Chen, Hongkai Wu, A. Khademhosseini (2015)
Spatial coordination of cell orientation directed by nanoribbon sheets.Biomaterials, 53
J. Robert, B. Weber, L. Frese, M. Emmert, D. Schmidt, A. Eckardstein, L. Rohrer, S. Hoerstrup (2013)
A Three-Dimensional Engineered Artery Model for In Vitro Atherosclerosis ResearchPLoS ONE, 8
Xuetao Shi, T. Fujie, A. Saito, S. Takeoka, Y. Hou, Yiwei Shu, Mingwei Chen, Hongkai Wu, A. Khademhosseini (2014)
Periosteum‐Mimetic Structures Made from Freestanding Microgrooved NanosheetsAdvanced Materials, 26
P. Yurchenco (2011)
Basement membranes: cell scaffoldings and signaling platforms.Cold Spring Harbor perspectives in biology, 3 2
Bo Yuan, Yu Jin, Yi Sun, Dong Wang, Jiashu Sun, Zhuo Wang, Wei Zhang, Xingyu Jiang (2012)
A Strategy for Depositing Different Types of Cells in Three Dimensions to Mimic Tubular Structures in TissuesAdvanced Materials, 24
Rebecca Duffy, A. Feinberg (2014)
Engineered skeletal muscle tissue for soft robotics: fabrication strategies, current applications, and future challenges.Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology, 6 2
T. Fujie, N. Matsutani, M. Kinoshita, Y. Okamura, A. Saito, S. Takeoka (2009)
Adhesive, Flexible, and Robust Polysaccharide Nanosheets Integrated for Tissue‐Defect RepairAdvanced Functional Materials, 19
OstrovidovSerge, Vahid Hosseini, AhadianSamad, FujieToshinori, ParthibanSelvakumar Prakash, RamalingamMurugan, BaeHojae, KajiHirokazu, KhademhosseiniAli (2014)
Skeletal Muscle Tissue Engineering: Methods to Form Skeletal Myotubes and Their ApplicationsTissue Engineering Part B-reviews
T. Fujie, Y. Okamura, S. Takeoka (2007)
Ubiquitous Transference of a Free‐Standing Polysaccharide Nanosheet with the Development of a Nano‐Adhesive PlasterAdvanced Materials, 19
T. Fujie, Y. Mori, Shuntaro Ito, M. Nishizawa, Hojae Bae, Nobuhiro Nagai, Hideyuki Onami, T. Abe, A. Khademhosseini, H. Kaji (2014)
Micropatterned Polymeric Nanosheets for Local Delivery of an Engineered Epithelial MonolayerAdvanced Materials, 26
Y. Okamura, Koki Kabata, M. Kinoshita, H. Miyazaki, A. Saito, T. Fujie, S. Ohtsubo, D. Saitoh, S. Takeoka (2013)
Fragmentation of Poly(lactic acid) Nanosheets and Patchwork Treatment for Burn WoundsAdvanced Materials, 25
Xiaohua Liu, P. Ma (2009)
Phase separation, pore structure, and properties of nanofibrous gelatin scaffolds.Biomaterials, 30 25
M. Birch, Masaru Tanaka, G. Kirmizidis, Sadaaki Yamamoto, M. Shimomura (2013)
Microporous "honeycomb" films support enhanced bone formation in vitro.Tissue engineering. Part A, 19 17-18
T. Fujie, H. Haniuda, S. Takeoka (2011)
Convenient method for surface modification by patching a freestanding anti-biofouling nanosheetJournal of Materials Chemistry, 21
A. Engler, Maureen Griffin, S. Sen, C. Bönnemann, H. Sweeney, D. Discher, D. Discher (2004)
Myotubes differentiate optimally on substrates with tissue-like stiffnessThe Journal of Cell Biology, 166
L. Martinez‐Lemus (2012)
The dynamic structure of arterioles.Basic & clinical pharmacology & toxicology, 110 1
A. Feinberg, A. Feigel, S. Shevkoplyas, S. Sheehy, G. Whitesides, K. Parker (2007)
Muscular Thin Films for Building Actuators and Powering DevicesScience, 317
W. Knoll, R. Advíncula (2011)
Functional polymer films
H. Lodish (1986)
Molecular Cell Biology
C. Stafford, C. Harrison, K. Beers, A. Karim, E. Amis, M. Vanlandingham, Ho-Cheol Kim, W. Volksen, Robert Miller, E. Simonyi (2004)
A buckling-based metrology for measuring the elastic moduli of polymeric thin filmsNature Materials, 3
Advanced Materials Technologies – Wiley
Published: Sep 1, 2016
Keywords: ; ; ; ;
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.