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Items: 1 to 20 of 138

1.

Flexible fabrication of biomimetic bamboo-like hybrid microfibers.

Yu Y, Wen H, Ma J, Lykkemark S, Xu H, Qin J.

Adv Mater. 2014 Apr 23;26(16):2494-9. doi: 10.1002/adma.201304974. Epub 2014 Jan 22.

PMID:
24453009
2.

Controlled Fabrication of Bioactive Microfibers for Creating Tissue Constructs Using Microfluidic Techniques.

Cheng Y, Yu Y, Fu F, Wang J, Shang L, Gu Z, Zhao Y.

ACS Appl Mater Interfaces. 2016 Jan 20;8(2):1080-6. doi: 10.1021/acsami.5b11445. Epub 2016 Jan 8.

PMID:
26741731
3.

Microfluidic Fabrication of Bio-Inspired Microfibers with Controllable Magnetic Spindle-Knots for 3D Assembly and Water Collection.

He XH, Wang W, Liu YM, Jiang MY, Wu F, Deng K, Liu Z, Ju XJ, Xie R, Chu LY.

ACS Appl Mater Interfaces. 2015 Aug 12;7(31):17471-81. doi: 10.1021/acsami.5b05075. Epub 2015 Jul 30.

PMID:
26192108
4.

Controllable generation and encapsulation of alginate fibers using droplet-based microfluidics.

Martino C, Statzer C, Vigolo D, deMello AJ.

Lab Chip. 2016 Jan 7;16(1):59-64. doi: 10.1039/c5lc01150g.

PMID:
26556398
5.

Spray-spinning: a novel method for making alginate/chitosan fibrous scaffold.

Wang JZ, Huang XB, Xiao J, Li N, Yu WT, Wang W, Xie WY, Ma XJ, Teng YL.

J Mater Sci Mater Med. 2010 Feb;21(2):497-506. doi: 10.1007/s10856-009-3867-1. Epub 2009 Sep 16.

PMID:
19756966
6.

Facile single step fabrication of microchannels with varying size.

Asthana A, Kim KO, Perumal J, Kim DM, Kim DP.

Lab Chip. 2009 Apr 21;9(8):1138-42. doi: 10.1039/b818987k. Epub 2009 Feb 4.

PMID:
19350097
7.

On-demand preparation of quantum dot-encoded microparticles using a droplet microfluidic system.

Ji XH, Cheng W, Guo F, Liu W, Guo SS, He ZK, Zhao XZ.

Lab Chip. 2011 Aug 7;11(15):2561-8. doi: 10.1039/c1lc20150f. Epub 2011 Jun 17.

PMID:
21687836
8.

Fluidic microstructuring of alginate hydrogels for the single cell niche.

Braschler T, Valero A, Colella L, Pataky K, Brugger J, Renaud P.

Lab Chip. 2010 Oct 21;10(20):2771-7. doi: 10.1039/c004988c. Epub 2010 Sep 6.

PMID:
20820482
9.

Microfluidic Generation of Monodisperse, Structurally Homogeneous Alginate Microgels for Cell Encapsulation and 3D Cell Culture.

Utech S, Prodanovic R, Mao AS, Ostafe R, Mooney DJ, Weitz DA.

Adv Healthc Mater. 2015 Aug 5;4(11):1628-33. doi: 10.1002/adhm.201500021. Epub 2015 Jun 3.

10.

Monodisperse alginate microcapsules with oil core generated from a microfluidic device.

Ren PW, Ju XJ, Xie R, Chu LY.

J Colloid Interface Sci. 2010 Mar 1;343(1):392-5. doi: 10.1016/j.jcis.2009.11.007. Epub 2009 Nov 10.

PMID:
19963224
11.

"On the fly" continuous generation of alginate fibers using a microfluidic device.

Shin SJ, Park JY, Lee JY, Park H, Park YD, Lee KB, Whang CM, Lee SH.

Langmuir. 2007 Aug 14;23(17):9104-8. Epub 2007 Jul 18.

PMID:
17637008
12.

Droplet-based microfluidic system to form and separate multicellular spheroids using magnetic nanoparticles.

Yoon S, Kim JA, Lee SH, Kim M, Park TH.

Lab Chip. 2013 Apr 21;13(8):1522-8. doi: 10.1039/c3lc41322e.

PMID:
23426090
13.

Rheologically biomimetic cell suspensions for decreased cell settling in microfluidic devices.

Launiere CA, Czaplewski GJ, Myung JH, Hong S, Eddington DT.

Biomed Microdevices. 2011 Jun;13(3):549-57. doi: 10.1007/s10544-011-9524-8.

PMID:
21409456
14.

Microfluidic synthesis of tail-shaped alginate microparticles using slow sedimentation.

Lin YS, Yang CH, Hsu YY, Hsieh CL.

Electrophoresis. 2013 Feb;34(3):425-31. doi: 10.1002/elps.201200282. Epub 2013 Jan 6.

PMID:
23161405
15.

Synthesis of a hybrid polymer-inorganic biomimetic support incorporating in situ pectinase from Aspergillus niger ATCC 9642.

Bustamante-Vargas CE, Mignoni ML, de Oliveira D, Venquiaruto LD, Valduga E, Toniazzo G, Dallago RM.

Bioprocess Biosyst Eng. 2015 Aug;38(8):1569-77. doi: 10.1007/s00449-015-1399-2. Epub 2015 Apr 19.

PMID:
25894295
16.

Editorial: "Biotech Methods" and the Biotechnology Journal mobile app.

Peng J.

Biotechnol J. 2014 Oct;9(10):1225-6. doi: 10.1002/biot.201400492. No abstract available.

PMID:
25270841
17.

Optically clear alginate hydrogels for spatially controlled cell entrapment and culture at microfluidic electrode surfaces.

Betz JF, Cheng Y, Tsao CY, Zargar A, Wu HC, Luo X, Payne GF, Bentley WE, Rubloff GW.

Lab Chip. 2013 May 21;13(10):1854-8. doi: 10.1039/c3lc50079a. Epub 2013 Apr 5.

PMID:
23559159
18.

A novel hybrid system for the fabrication of a fibrous mesh with micro-inclusions.

Ahmad B, Gunduz O, Stoyanov S, Pelan E, Stride E, Edirisinghe M.

Carbohydr Polym. 2012 Jun 5;89(1):222-9. doi: 10.1016/j.carbpol.2012.02.074. Epub 2012 Mar 7.

19.

Microfluidic spinning of flat alginate fibers with grooves for cell-aligning scaffolds.

Kang E, Choi YY, Chae SK, Moon JH, Chang JY, Lee SH.

Adv Mater. 2012 Aug 16;24(31):4271-7. doi: 10.1002/adma.201201232. Epub 2012 Jun 28.

PMID:
22740066
20.

Optimised production of multifunctional microfibres by microfluidic chip technology for tissue engineering applications.

Mazzitelli S, Capretto L, Carugo D, Zhang X, Piva R, Nastruzzi C.

Lab Chip. 2011 May 21;11(10):1776-85. doi: 10.1039/c1lc20082h. Epub 2011 Apr 6.

PMID:
21472178

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