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Literature DB >> 14613184

Surface modification in microchip electrophoresis.

Abstract

Different approaches and techniques for surface modification of microfluidic devices applied for microchip electrophoresis are reviewed. The main focus is on the improved electrophoretic separation by reducing analyte-wall interactions and manipulation of electroosmosis. Approaches and methods for permanent and dynamic surface modification of microfluidic devices, manufactured from glass, quartz and also different polymeric substrates, are described.

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Year: 2003 PMID： 14613184 DOI： 10.1002/elps.200305648

Source DB: PubMed Journal: Electrophoresis ISSN： 0173-0835 Impact factor: 3.535

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Cited

18 in total

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Authors: Rajeeb K Jena; C Y Yue
Journal: Biomicrofluidics Date: 2012-03-15 Impact factor: 2.800

2. Surface patterning of bonded microfluidic channels.

Authors: Craig Priest
Journal: Biomicrofluidics Date: 2010-09-30 Impact factor: 2.800

Review 3. Reactions in droplets in microfluidic channels.

Authors: Helen Song; Delai L Chen; Rustem F Ismagilov
Journal: Angew Chem Int Ed Engl Date: 2006-11-13 Impact factor: 15.336

4. Hybrid Paper-Plastic Microchip for Flexible and High-Performance Point-of-Care Diagnostics.

Authors: Mohamed Shehata Draz; Maryam Moazeni; Manasa Venkataramani; Harini Lakshminarayanan; Ecem Saygili; Nivethitha Kota Lakshminaraasimulu; Kamyar Mehrabi Kochehbyoki; Manoj Kumar Kanakasabapathy; Shirin Shabahang; Anish Vasan; Mohamad Ali Bijarchi; Adnan Memic; Hadi Shafiee
Journal: Adv Funct Mater Date: 2018-04-25 Impact factor: 18.808

5. Recent advances in nonbiofouling PDMS surface modification strategies applicable to microfluidic technology.

Authors: Aslihan Gokaltun; Martin L Yarmush; Ayse Asatekin; O Berk Usta
Journal: Technology (Singap World Sci) Date: 2017-02-07

Review 6. Recent advances in protein analysis by capillary and microchip electrophoresis.

Authors: Mohamed Dawod; Natalie E Arvin; Robert T Kennedy
Journal: Analyst Date: 2017-05-30 Impact factor: 4.616

7. A general microchip surface modification approach using a spin-coated polymer resist film doped with hydroxypropyl cellulose.

Authors: Xiuhua Sun; Weichun Yang; Yanli Geng; Adam T Woolley
Journal: Lab Chip Date: 2008-12-19 Impact factor: 6.799

8. Use of photopatterned porous polymer monoliths as passive micromixers to enhance mixing efficiency for on-chip labeling reactions.

Authors: Dieudonne A Mair; Thomas R Schwei; Theresa S Dinio; Frantisek Svec; Jean M J Fréchet
Journal: Lab Chip Date: 2009-01-07 Impact factor: 6.799

9. Microfab-less Microfluidic Capillary Electrophoresis Devices.

Authors: Thiago P Segato; Samir A Bhakta; Matthew Gordon; Emanuel Carrilho; Peter A Willis; Hong Jiao; Carlos D Garcia
Journal: Anal Methods Date: 2013-04-07 Impact factor: 2.896

10. Photochemical functionalization of polymer surfaces for microfabricated devices.

Authors: Justin S Mecomber; Rajesh S Murthy; Sridhar Rajam; Pradeep N D Singh; Anna D Gudmundsdottir; Patrick A Limbach
Journal: Langmuir Date: 2008-02-23 Impact factor: 3.882