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Journal articles on the topic 'Micropattes'

Author: Grafiati
Published: 4 June 2021
Last updated: 13 February 2022

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1

Pan, Chang Jiang, Yu Dong Nie, and Yun Xiao Dong. "Directing Human Chondrocytes Cell Behavior by Fabrication of Protein Micropattern on Polystyrene Surfaces." Advanced Materials Research 284-286 (July 2011): 1815–18. http://dx.doi.org/10.4028/www.scientific.net/amr.284-286.1815.

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In the present study, three BMP-2 (bone morphogenetic protein-2) micropatterns were produced on polystyrene (PS) surface by microcontact printing in order to investigate the effect of protein micropattern on biomaterials surface on human chondrocytes behavior. The excellent BMP-2 micropatterns from fluorescent observation were successfully obtained. Cell adhesion and immunohistochemical assay were utilized to explore cell behavior. The results indicated that the protein micropatterns have significant influence on cell adhesion, spread, alignment and protein expression. The cells preferentially
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2

Kunar, Sandip, and Bijoy Bhattacharyya. "Fabrication of various micropatterns by maskless micro-electrochemical texturing." Manufacturing Review 6 (2019): 6. http://dx.doi.org/10.1051/mfreview/2019006.

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In this paper, an innovative and alternative concept of maskless micro-electrochemical texturing is exploited for the fabrication of simple and complex micropatterns. In this process, the tool is masked incorporated with the textured patterns and the workpiece has no mask. This research study concentrates on generation of simple micropattern, i.e. linear micropattern, and complex micropattern, i.e. cascade micropattern using maskless micro-electrochemical texturing method without repeated use of photolithography process. A single masked patterned tool with SU-8 2150 mask can produce many high-
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3

Ramadan, Rehab, Vicente Torres-Costa, and Raúl J. Martín-Palma. "Fabrication of Zinc Oxide and Nanostructured Porous Silicon Composite Micropatterns on Silicon." Coatings 10, no. 6 (2020): 529. http://dx.doi.org/10.3390/coatings10060529.

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The luminescent properties of zinc oxide (ZnO) and nanostructured porous silicon (PSi) make these materials very appealing for photoemission applications. The current study reports on the fabrication of a composite of ZnO and nanostructured porous silicon micropatterns (ZnO + PSi micropatterns) onto heavily-doped silicon surfaces. The proposed composite micropattern is devoted to the future development of light-emitting diodes. The fabrication of the ZnO + PSi micropatterns was carried out in a two–step process. (1) A regular hexagonal micropattern of a photoresist/ZnO stack was fabricated by
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4

Park, Jong-Han, and Keun Park. "Development of Micropatterns on Curved Surfaces Using Two-Step Ultrasonic Forming." Micromachines 10, no. 10 (2019): 654. http://dx.doi.org/10.3390/mi10100654.

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Nanoimprint lithography (NIL) is a micro/nanoscale patterning technology on thermoplastic polymer films, and has been widely used to fabricate functional micro/nanoscale patterns. NIL was also used to develop micro/nanoscale patterns on curved surfaces by employing flexible polymer stamps or micropatterned metal molds with macroscopic curvatures. In this study, two-step ultrasonic forming was used to develop micropatterns on a curved surface out of a flat metal stamp, by connecting ultrasonic imprinting and stretching processes. Ultrasonic imprinting was used to replicate functional micropatte
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Katoh, Kazuo. "FAK-Dependent Cell Motility and Cell Elongation." Cells 9, no. 1 (2020): 192. http://dx.doi.org/10.3390/cells9010192.

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Fibroblastic cells show specific substrate selectivity for typical cell–substrate adhesion. However, focal adhesion kinase (FAK) contributes to controlling the regulation of orientation and polarity. When fibroblasts attach to micropatterns, tyrosine-phosphorylated proteins and FAK are both detected along the inner border between the adhesive micropatterns and the nonadhesive glass surface. FAK likely plays important roles in regulation of cell adhesion to the substrate, as FAK is a tyrosine-phosphorylated protein that acts as a signal transduction molecule at sites of cell–substrate attachmen
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6

Aizawa, Tatsuhiko, Tomoaki Yoshino, and Tadahiko Inohara. "Micro-/Nano-Texturing of Aluminum by Precise Coining for Functional Surface Decoration." Metals 10, no. 8 (2020): 1044. http://dx.doi.org/10.3390/met10081044.

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The AISI316 austenitic stainless steel die was prepared and nitrided at 673 K for 14.4 ks. Through this low temperature plasma nitriding, the AISI316 die was homogeneously hardened up to 1400 HV within its surface layer of 50 μm. This nitrided AISI316 die was utilized to print the tailored micropattern with nanotextures onto its surface by the femtosecond laser processing. Each micropattern consisted of the tailored segments to have unidirectional nanotextures with different orientations. Each segment was recognized by its intrinsic surface plasmonic brilliance to tailored nanotextures. The CN
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7

Cheng, Hsin Chung, Chiung Fang Huang, Yi Lin, and Yung Kang Shen. "Fabrication of Micropattern of Plastic Film Using Ultrasonic Micro Embossing." Advanced Materials Research 912-914 (April 2014): 141–44. http://dx.doi.org/10.4028/www.scientific.net/amr.912-914.141.

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This study indicates the micropattern of molded plastic film from a mold insert using ultrasonic micro embossing. A mold insert and plastic film are heated above the glass transition temperature of plastic, and the softened plastic is flowed into the micropattern of a mold insert by applying pressure via a conventional technique. A longitudinal ultrasonic wave is added to the ultrasonic micro embossing process. The longitudinal ultrasonic wave generated by an ultrasonic system at a frequency of 35 KHz, has amplitude of 20 μm and output power of 900 W. The micropatterns of the Ni mold insert ar
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8

Koguchi, Hideo, Shuma Suzuki, and Masahiro Taroura. "Contact analysis of an anisotropic half-domain with micropatterns considering friction." International Journal of Computational Materials Science and Engineering 03, no. 01 (2014): 1450005. http://dx.doi.org/10.1142/s2047684114500055.

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In the present study, a contact problem between a spherical indenter and a half-anisotropic elastic region with a micropattern is solved under normal and tangential forces considering friction. The surface Green's function, and the discrete convolution and fast Fourier transform (DC–FFT) method are used to calculate the displacements on a contact area, and the conjugate gradient (CG) method is used to calculate the contact pressure, the contact area, shear tractions, and the stick-slip region. The influences of the shape and density (the pattern area per unit area) of the micropattern and the
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9

Kim, Young Ho, Jeong Woo Sohn, Youngjae Woo, Joo Hyun Hong, and Juyoung Park. "Fabrication of PEG Hydrogel and PDMS Microstructures by a Simple UV Curing Process for Nanobio-Chip Applications." Advanced Materials Research 941-944 (June 2014): 404–10. http://dx.doi.org/10.4028/www.scientific.net/amr.941-944.404.

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Polyethylene glycol (PEG) hydrogel microstructures with various shapes and sizes on a glass chip were prepared by a simple and rapid ultraviolet (UV) irradiation method using a metal mask. Photocurable PEG solution prepared by mixing 95 wt.% polyethylene glycol diacrylate and 5 wt.% 2-hydroxy-2-methylpropiophenone as a photo-initiator was injected to the gap between bottom and upper glasses in a simply assembled glass chip. After a metal mask with line-and-space or complex patterns was placed on the glass chip, UV light from a spot UV irradiation device was exposed to the glass chip through th
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10

Itoga, Kazuyoshi, Jun Kobayashi, Masayuki Yamato, and Teruo Okano. "Development of Microfabrication Technology with Maskless Photolithography Device Using LCD Projector." Journal of Robotics and Mechatronics 22, no. 5 (2010): 608–12. http://dx.doi.org/10.20965/jrm.2010.p0608.

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The maskless photolithography device we developed requires no photomask, by modifying Liquid Crystal Display (LCD) projector optics from magnified to reduced projection. The second-generation device we developed produces a practical centimeter-scale micropattern by dividing a large mask pattern and divisionally exposing it synchronized with an auto-XY stage, applying it to cellmicropattern and microfluidic device production. Although advantageous in producing maskless micropatterns, problems arise in jagged pattern boundaries due to the liquid crystal panel structure and collapse pattern of th
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11

Sakurai, Yumiko, Yongzhi Qiu, Byungwook Ahn та Wilbur Lam. "Platelet α-Granule Secretion and Cytoskeletal Rearrangements Are Spatially Regulated At the Micro/Nanoscale." Blood 120, № 21 (2012): 2163. http://dx.doi.org/10.1182/blood.v120.21.2163.2163.

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Abstract Abstract 2163 Introduction At sites of vascular injury, activated platelets exhibit dramatic morphological changes and granule secretion to facilitate recruitment of other platelets and clot formation. In our previous work (Kita et al., 2011), we quantified the effect of the microenvironmental geometry on platelet adhesion using microcontact printing and showed that platelet adhesion and spreading is spatially regulated with microscale resolution. Here we demonstrate that platelet secretion of alpha granules, as indicated with P-selectin staining (a marker for a-granules), is also spa
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Kita, Ashley, Yumiko Sakurai, David R. Myers, et al. "Platelet Sensing of Microenviornmental Geometry Guides Adhesion and Spreading: A Quantitative Study At the Single-Cell Level." Blood 118, no. 21 (2011): 2192. http://dx.doi.org/10.1182/blood.v118.21.2192.2192.

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Abstract Abstract 2192 To activate clot formation and maintain hemostasis, platelets adhere and spread onto sites of vascular injury. Although well-characterized biochemically, the role of physical and spatial cues in the microenvironment affect platelet adhesion and spreading remains unclear. No published data systemically characterizes and quantifies, at the single platelet level, how the microenvironmental geometry influences platelet spreading, and what the physical limitations and constraints are. In this study, we applied protein microcontact printing techniques to quantitatively investi
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13

Mandal, Kalpana, Atef Asnacios, Bruno Goud, and Jean-Baptiste Manneville. "Mapping intracellular mechanics on micropatterned substrates." Proceedings of the National Academy of Sciences 113, no. 46 (2016): E7159—E7168. http://dx.doi.org/10.1073/pnas.1605112113.

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The mechanical properties of cells impact on their architecture, their migration, intracellular trafficking, and many other cellular functions and have been shown to be modified during cancer progression. We have developed an approach to map the intracellular mechanical properties of living cells by combining micropatterning and optical tweezers-based active microrheology. We optically trap micrometer-sized beads internalized in cells plated on crossbow-shaped adhesive micropatterns and track their displacement following a step displacement of the cell. The local intracellular complex shear mo
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14

Yoon, Sang-Hee, Young Kyun Kim, Eui Don Han, Young-Ho Seo, Byeong Hee Kim, and Mohammad R. K. Mofrad. "Passive control of cell locomotion using micropatterns: the effect of micropattern geometry on the migratory behavior of adherent cells." Lab on a Chip 12, no. 13 (2012): 2391. http://dx.doi.org/10.1039/c2lc40084g.

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15

Sakurai, Yumiko, David R. Myers, Ashley Kita, and Wilbur Lam. "A Novel Assay That Integrates the Effects of Multiple Agonists At the Single-Platelet Level,." Blood 118, no. 21 (2011): 3258. http://dx.doi.org/10.1182/blood.v118.21.3258.3258.

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Abstract Abstract 3258 Background: At sites of vascular injury, platelets are exposed to multiple agonists that lead to overall activation and platelet plug formation. Signaling pathways induced by these agonists are known to interact with each other. For example, collagen binding to the platelet collagen receptors, α2β1 integrin, CD36, and glycoprotein VI, induces inside-out signaling that ultimately leads to the activation of the glycoprotein IIb/IIIa receptor for fibrinogen on the platelet surface (Nakamura et al, JCB, 1999). An assay capable of tracking the biological effects of multiple d
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16

Yasukawa, Tomoyuki, Masato Suzuki, Hitoshi Shiku, and Tomokazu Matsue. "Fabrication of Line and Grid Patterns with Cells Based on Negative Dielectrophoresis." Journal of Robotics and Mechatronics 22, no. 5 (2010): 613–18. http://dx.doi.org/10.20965/jrm.2010.p0613.

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The rapid, direct fabrication of two-dimensional line patterns with biological cells in a culture medium we report here is based on negative dielectrophoresis (n-DEP). It easily creates a versatile cell micropattern without specially pretreating culture slides. When an alternating electric field, typically 1 MHz, was applied to an InterDigitated band Array (IDA) electrode with four subunits, n-DEP force directs cells toward a weaker of electric field strength region. Cells aligned above attracted bands within 1min. Applying AC voltage for 5 min enables cells to adhere to the cell culture slide
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17

Fooladi, Hosein, Parsa Moradi, Ali Sharifi-Zarchi, and Babak Hosein Khalaj. "Enhanced Waddington landscape model with cell–cell communication can explain molecular mechanisms of self-organization." Bioinformatics 35, no. 20 (2019): 4081–88. http://dx.doi.org/10.1093/bioinformatics/btz201.

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Abstract Motivation The molecular mechanisms of self-organization that orchestrate embryonic cells to create astonishing patterns have been among major questions of developmental biology. It is recently shown that embryonic stem cells (ESCs), when cultured in particular micropatterns, can self-organize and mimic the early steps of pre-implantation embryogenesis. A systems-biology model to address this observation from a dynamical systems perspective is essential and can enhance understanding of the phenomenon. Results Here, we propose a multicellular mathematical model for pattern formation du
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18

Subramani, Karthikeyan, and M. A. Birch. "Micropatterning of Poly (Ethylene Glycol)-Diacrylate (PEG-DA) Hydrogel by Soft-Photolithography for Analysis of Cell-Biomaterial Interactions." Journal of Biomimetics, Biomaterials and Tissue Engineering 2 (May 2009): 3–14. http://dx.doi.org/10.4028/www.scientific.net/jbbte.2.3.

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Poly (ethylene glycol) hydrogel (PEG) micropatterns fabricated by photolithography and various other microfabrication techniques have been used as a platform to analyze cell-biomaterial interactions in cell culture studies. Numerous innovative techniques have been described about photolithography and the use of Poly (dimethyl siloxane) stamp (PDMS) based pressure moulding technique for the microfabrication of PEG hydrogel micropatterns. We herein this literature describe a simple and a versatile method for fabricating Poly (ethylene glycol) hydrogel-diacrylate (PEG-DA) hydrogel micropatterns u
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19

Jiang, Liu, Huaming Qian, Gang Chen, et al. "Fabrication of micropatterns on polypropylene films via plasma pretreatment combined with UV-initiated graft polymerization." Journal of Biomaterials Applications 31, no. 10 (2017): 1346–57. http://dx.doi.org/10.1177/0885328217707100.

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In this study, micropatterns on polypropylene films were fabricated via plasma pretreatment and UV-initiated graft polymerization. Firstly, radio-frequency plasma, which does not significantly influence bulk attributes of substrates due to limited penetration depth, was utilized to activate polypropylene films. Then, different sizes of micropatterns of poly(hydroxyethyl methacrylate) (PHEMA) were fabricated on the polypropylene films via UV-initiated graft polymerization of hydroxyethyl methacrylate by using photo-masks. Scanning electron microscopy, atomic force microscopy, X-ray photoelectro
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20

Lim, Geonwoo, Kibeom Kim, Yuri Park, and Myoung-Hwan Park. "Development of Gold Nanoparticle Micropatterns for the Electrical Detection of Proteins." Nanomaterials 11, no. 2 (2021): 528. http://dx.doi.org/10.3390/nano11020528.

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Protein analysis can be used to efficiently detect the early stages of various diseases. However, conventional protein detection platforms require expensive or complex equipment, which has been a major obstacle to their widespread application. In addition, uncertain signals from non-specific adhesion interfere with the precise interpretation of the results. To overcome these problems, the development of a technique that can detect the proteins in a simple method is needed. In this study, a platform composed of gold nanoparticles (GNPs) was fabricated through a simple imprinting method for prot
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21

Proksch, S., T. Steinberg, S. Schulz, S. Sauerbier, E. Hellwig, and P. Tomakidi. "Environmental Biomechanics Substantiated by Defined Pillar Micropatterns Govern Behavior of Human Mesenchymal Stem Cells." Cell Transplantation 21, no. 11 (2012): 2455–69. http://dx.doi.org/10.3727/096368912x637037.

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While evidence on the impact of the biomechanical environment elasticity on human mesenchymal stem cell (hMSC) behavior is growing, the aspect of micropatterning is still poorly understood. Thus, the present study aimed at investigating the influence of defined environmental micropatterning on hMSC behavior. Following characterization, hMSCs were grown on defined pillar micropatterns of 5, 7, 9, and 11 μm. With respect to cell behavior, primary hMSC adhesion was detected by indirect immunofluorescence (iIF) for paxillin, vinculin, integrin αV, and actin, while proliferation was visualized by h
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22

Ma, Wenyong, Luying Liu, Huiqing Chen, Yuancong Zhao, Ping Yang, and Nan Huang. "Micropatterned immobilization of membrane-mimicking polymer and peptides for regulation of cell behaviors in vitro." RSC Advances 8, no. 37 (2018): 20836–50. http://dx.doi.org/10.1039/c8ra02607f.

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The Ti-PDA-M/R(P) biomimetic micropattern was successfully fabricated with PMMPC-HD and GREDVY. The Ti-PDA-M/R(P) micropattern can regulate EC morphology, orientation and functions, and inhibit platelet adhesion and proliferation of SMCs.
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23

Okada, Hidetaka, Seiji Yamaguchi, Mitsuhiro Hibino, et al. "Development of Apatite Micropattern Test Specimen for Cell Operation." Key Engineering Materials 309-311 (May 2006): 663–66. http://dx.doi.org/10.4028/www.scientific.net/kem.309-311.663.

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Apatite micropattern was fabricated by a combination of biomimetic process and transcription of resist pattern. We optimized some fabrication conditions such as the height of resist pattern, temperature, concentrations and pH of simulated body fluid(SBF). Consequently, we successfully obtained apatite micropattern widely and homogeneously on a substrate in a short fabrication period.
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24

Hamagami, Jun Ichi, Kazuhiro Hasegawa, and Kiyoshi Kanamura. "Micropattern of Colloidal Crystal by Using Electrophoretic Deposition Process with Three-Electrode System." Key Engineering Materials 320 (September 2006): 171–74. http://dx.doi.org/10.4028/www.scientific.net/kem.320.171.

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A novel micropatterning process for a particle assembly has been performed by using an electrophoretic deposition (EPD) method with a local electric field in a colloidal suspension generated by a three-electrode system. Monodisperse silica colloidal spheres with a diameter of 300 nm were used to fabricate micropattern of colloidal crystal. An interdigitated gold-microarray electrode with a 10 μm of width and a gold plate electrode were used as the working and the counter electrodes, respectively. After optimization of the EPD processing parameters, a micropattern was constructed from silica co
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25

Liu, Jun, Hua Wang, Meng-Jie Chang, and Hui-Ling Du. "Preparation of Highly Ordered Fiber Micropatterns by Assembly of Electrospun Nanofiber Segments." Journal of Nanomaterials 2016 (2016): 1–7. http://dx.doi.org/10.1155/2016/9278423.

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A novel method for fabricating highly ordered fiber micropatterns by assembly of electrospun nanofiber segments was described. Polymethylglutarimide (PMGI) fiber segments with an average length of 3 µm were prepared by combining electrospinning with subsequent sonication treatment. Afterwards, the fiber segments dispersed in water were assembled on Norland optical adhesive (NOA) templates with different microstructural sizes and shapes, allowing formation of spatially uniform nanofibrous micropatterns on flat glass substrate. Regular fiber microarrays were produced when the feature size of NOA
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26

Ueda, Erica, and Pavel A. Levkin. "Micropatterns: Emerging Applications of Superhydrophilic-Superhydrophobic Micropatterns (Adv. Mater. 9/2013)." Advanced Materials 25, no. 9 (2013): 1368. http://dx.doi.org/10.1002/adma.201370055.

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27

Song, Wei, Naoki Kawazoe, and Guoping Chen. "Dependence of Spreading and Differentiation of Mesenchymal Stem Cells on Micropatterned Surface Area." Journal of Nanomaterials 2011 (2011): 1–9. http://dx.doi.org/10.1155/2011/265251.

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Micropatterning technology is a highly advantageous approach for directly assessing and comparing the effects of different factors on stem cell functions. In this study, poly(vinyl alcohol)- (PVA-) micropatterned polystyrene surfaces were prepared using photoreactive PVA and ultraviolet photolithography with a photomask. The micropatterned surface was suitable for single-cell array formation and long-term cell culture due to the nanometer thickness of nonadhesive PVA layer. Different degrees of cell spreading with the same cell shape were established by adjusting the sizes of circular, cell-ad
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Ito, Yoshihiro. "Micropattern immobilization of polysaccharide." Journal of Inorganic Biochemistry 79, no. 1-4 (2000): 77–81. http://dx.doi.org/10.1016/s0162-0134(99)00159-2.

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Batabyal, Sudip K., C. Basu, A. R. Das, and G. S. Sanyal. "Micropatterns of Ag2Se Nanocrystals." Crystal Growth & Design 4, no. 3 (2004): 509–11. http://dx.doi.org/10.1021/cg034228k.

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Hou, Honghao, Xiaodong Ma, Hongjie Xu, Zixing Shi, Jie Yin, and Xuesong Jiang. "Photoreversible Growth of Micropattern." Advanced Materials Interfaces 3, no. 19 (2016): 1600528. http://dx.doi.org/10.1002/admi.201600528.

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Wang, Si, Ziao Shen, Zhenyu Shen, et al. "Machine-learning micropattern manufacturing." Nano Today 38 (June 2021): 101152. http://dx.doi.org/10.1016/j.nantod.2021.101152.

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32

Xu, Dongdong, Solveig M. Bartelt, Samaneh Rasoulinejad, Fei Chen, and Seraphine V. Wegner. "Green light lithography: a general strategy to create active protein and cell micropatterns." Materials Horizons 6, no. 6 (2019): 1222–29. http://dx.doi.org/10.1039/c9mh00170k.

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Tadanaga, Kiyoharu, Kenji Takahashi, Masahiro Tatsumisago, and Atsunori Matsuda. "Micropatterning of Phenylsilsesquioxane Thick Films by the Electrophoretic Sol-Gel Deposition Process Using ITO Substrates with a Hydrophobic-Hydrophilic Patterned Surface." Key Engineering Materials 314 (July 2006): 159–66. http://dx.doi.org/10.4028/www.scientific.net/kem.314.159.

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Micropatterns of phenylsilsesquioxane thick films have been prepared by electrophoretic sol-gel deposition using ITO-coated substrates with a hydrophobic-hydrophilic patterned surface. After the electrophoretic deposition, phenylsilsesquioxane thick films were formed only on hydrophilic areas on the pattern. These thick films obtained immediately after the electrophoretic deposition were opaque due to light scattering. However, phenylsilsesquioxane particles in the films were morphologically changed from aggregates of the spherical particles to continuous phase by a heat treatment process, and
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Kwon, Young Woo, Tae Dong Lee, Yeong Min Park, Hyun Cho, Jin Kon Kim, and Tae Gyu Kim. "The study and fabrication of DLC micropattern on roll mold." Modern Physics Letters B 29, no. 06n07 (2015): 1540005. http://dx.doi.org/10.1142/s0217984915400059.

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Diamond-like carbon (DLC) coating is becoming a promising protective coating layers due to its superior properties. In this study, instead of protective coating, DLC film was applied as the only component for micropattern then etched with lithography and lift-off process selectively. Furthermore, DLC film has been fabricated on aluminum roll mold. Then UV curing resin was applied to form the pattern on the polyethylene terephthalate (PET) film. The dimension and formation of the DLC micropattern on roll mold were analyzed. Moreover, the Raman spectroscopic of nitrogen-doped DLC film was analyz
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She, Zhe, Mina R. Narouz, Christene A. Smith, et al. "N-Heterocyclic carbene and thiol micropatterns enable the selective deposition and transfer of copper films." Chemical Communications 56, no. 8 (2020): 1275–78. http://dx.doi.org/10.1039/c9cc08919e.

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CHAR, KOOKHEON, SANGCHEOL KIM, JINHAN CHO, HIESANG SOHN, and HONGSEOK JANG. "CHARACTERISTICS AND MICROPATTERNING OF SPIN SELF-ASSEMBLED ULTRATHIN MULTILAYERS." International Journal of Nanoscience 01, no. 05n06 (2002): 375–81. http://dx.doi.org/10.1142/s0219581x0200036x.

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A new method is introduced to build organic/organic multilayer films composed of cationic poly(allylamine hydrochloride) (PAH) and negatively-charged poly(sodium 4-styrenesulfonate) (PSS) using the spinning process. The adsorption process is governed by both the viscous force induced by fast solvent elimination and the electrostatic interaction between oppositely-charged species. On the other hand, the centrifugal and air shear forces applied by the spinning process enhance significantly the desorption of weakly-bound polyelectrolyte chains and also induce the planarization of the adsorbed pol
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37

Albert, Philipp J., and Ulrich S. Schwarz. "Optimizing micropattern geometries for cell shape and migration with genetic algorithms." Integrative Biology 8, no. 7 (2016): 741–50. http://dx.doi.org/10.1039/c6ib00061d.

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Cengiz, N., T. N. Gevrek, R. Sanyal, and A. Sanyal. "Orthogonal thiol–ene ‘click’ reactions: a powerful combination for fabrication and functionalization of patterned hydrogels." Chemical Communications 53, no. 63 (2017): 8894–97. http://dx.doi.org/10.1039/c7cc02298k.

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Kara, Adnane, Arnaud Reitz, Jessy Mathault, et al. "Electrochemical imaging for microfluidics: a full-system approach." Lab on a Chip 16, no. 6 (2016): 1081–87. http://dx.doi.org/10.1039/c6lc00077k.

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40

Peterson, Ivars. "Writing Micropatterns in Glowing Silicon." Science News 153, no. 20 (1998): 310. http://dx.doi.org/10.2307/4010421.

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Folch, A., and M. Toner. "Cellular Micropatterns on Biocompatible Materials." Biotechnology Progress 14, no. 3 (1998): 388–92. http://dx.doi.org/10.1021/bp980037b.

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42

Keeble, D. R. T., and S. Nishida. "Micropattern orientation and spatial localization." Vision Research 41, no. 27 (2001): 3719–33. http://dx.doi.org/10.1016/s0042-6989(01)00210-3.

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Jang, Yeon-Suk, Michael Jank, Verena Maier, Karsten Durst, Nahum Travitzky, and Cordt Zollfrank. "SiC ceramic micropatterns from polycarbosilanes." Journal of the European Ceramic Society 30, no. 13 (2010): 2773–79. http://dx.doi.org/10.1016/j.jeurceramsoc.2010.05.019.

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44

Mishra, Gautam, Christopher D. Easton, Gregory J. S. Fowler, and Sally L. McArthur. "Spontaneously reactive plasma polymer micropatterns." Polymer 52, no. 9 (2011): 1882–90. http://dx.doi.org/10.1016/j.polymer.2011.03.004.

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45

Xu, Tailin, Li-Ping Xu, Xueji Zhang, and Shutao Wang. "Bioinspired superwettable micropatterns for biosensing." Chemical Society Reviews 48, no. 12 (2019): 3153–65. http://dx.doi.org/10.1039/c8cs00915e.

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Abstract:
The bioinspired micropatterns exhibit outstanding capacity in controlling and patterning microdroplets, which have offered new functionalities and possibilities towards a wide variety of emerging biological and biomedical applications.
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46

Lu, Conghua, Nianzu Wu, Xiaoming Jiao, Chuanqiou Luo, and Weixiao Cao. "Micropatterns constructed from Au nanoparticles." Chemical Communications, no. 9 (April 2, 2003): 1056–57. http://dx.doi.org/10.1039/b301059g.

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47

Dutton, Gail. "Refining Cellular Assays via Micropatterns." Genetic Engineering & Biotechnology News 34, no. 21 (2014): 8–9. http://dx.doi.org/10.1089/gen.34.21.03.

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48

Sun, Wenqing, Koon Fung Lam, Ling Wai Wong, and King Lun Yeung. "Zeolite micropattern for biological applications." Chemical Communications, no. 39 (2005): 4911. http://dx.doi.org/10.1039/b509323f.

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Li, Lingchun, Junbing Yang, Richard Vaia, and Liming Dai. "Multicomponent Micropatterns or Carbon Nanotubes." Synthetic Metals 154, no. 1-3 (2005): 225–28. http://dx.doi.org/10.1016/j.synthmet.2005.07.057.

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Wang, Xinlong, Xiaohong Hu, Naoki Kawazoe, Yingnan Yang, and Guoping Chen. "Manipulating Cell Nanomechanics Using Micropatterns." Advanced Functional Materials 26, no. 42 (2016): 7634–43. http://dx.doi.org/10.1002/adfm.201601585.

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