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Electrokinetically-driven deterministic lateral displacement for particle separation in microfluidic device

Descriptive

TypeOfResource
Text
TitleInfo
Title
Electrokinetically-driven deterministic lateral displacement for particle separation in microfluidic device
Name (type = personal)
NamePart (type = family)
Hanasoge
NamePart (type = given)
Srinivas
Affiliation
Mechanical and Aerospace Engineering, Rutgers University
Role
RoleTerm (authority = marcrt); (type = text)
author
Name (type = personal)
NamePart (type = family)
Devendra
NamePart (type = given)
Raghavendra
Affiliation
Mechanical and Aerospace Engineering, Rutgers University
Role
RoleTerm (authority = marcrt); (type = text)
author
Name (type = personal)
NamePart (type = family)
Diez
NamePart (type = given)
Francisco J.
Role
RoleTerm (authority = marcrt); (type = text)
author
Affiliation
Mechanical and Aerospace Engineering, Rutgers University
Name (authority = orcid); (authorityURI = http://id.loc.gov/vocabulary/identifiers/orcid.html); (type = personal); (valueURI = http://orcid.org/0000-0003-3860-7329)
NamePart (type = family)
Drazer
NamePart (type = given)
German
Affiliation
Mechanical and Aerospace Engineering, Rutgers University
Role
RoleTerm (authority = marcrt); (type = text)
author
Description
Drazer, German M.
Name (authority = RutgersOrg-Department); (type = corporate)
NamePart
Mechanical and Aerospace Engineering
Name (authority = RutgersOrg-School); (type = corporate)
NamePart
School of Engineering
Genre (authority = RULIB-FS)
Article, Refereed
Genre (authority = NISO JAV)
Accepted Manuscript (AM)
Note (type = peerReview)
Peer reviewed
OriginInfo
DateIssued (encoding = w3cdtf); (keyDate = yes); (qualifier = exact)
2015
Abstract (type = Abstract)
An electrokinetically driven deterministic lateral displacement device is proposed for the continuous, two-dimensional fractionation of suspensions in microfluidic platforms. The suspended species are driven through an array of regularly spaced cylindrical posts by applying an electric field across the device. We explore the entire range of orientations of the driving field with respect to the array of obstacles and show that, at specific forcing angles, particles of different size migrate in different directions, thus enabling continuous, two-dimensional separation. We discuss a number of features observed in the motion of the particles, including directional locking and sharp transitions between migration angles upon variations in the direction of the force, that are advantageous for high-resolution two-dimensional separation. A simple model based on individual particle–obstacle interactions accurately describes the migration angle of the particles depending on the orientation of the driving field and can be used to reconfigure the electric field depending on the composition of the samples.
Language
LanguageTerm (authority = ISO 639-3:2007); (type = text)
English
PhysicalDescription
InternetMediaType
application/pdf
Extent
12 p.
Subject (authority = LCSH)
Topic
Microfluidics
Subject (authority = local)
Topic
Separation
Subject (authority = local)
Topic
DLD
Subject (authority = local)
Topic
Deterministic Lateral Displacement
Subject (authority = LCSH)
Topic
Electrokinetics
Extension
DescriptiveEvent
Type
Citation
DateTime (encoding = w3cdtf)
2015
AssociatedObject
Name
Microfluidics and Nanofluidics
Type
Journal
Relationship
Has part
Detail
1195-1200
Identifier (type = volume and issue)
18(5)
Reference (type = url)
https://dx.doi.org/10.1007/s10404-014-1514-8
Extension
DescriptiveEvent
Type
Grant award
AssociatedEntity
Role
Funder
Name
National Science Foundation
AssociatedEntity
Role
Originator
Name
German Drazer
AssociatedObject
Type
Grant number
Name
CBET-1339087
RelatedItem (type = host)
TitleInfo
Title
Drazer, German
Identifier (type = local)
rucore30143000001
RelatedItem (type = host)
TitleInfo
Title
Diez, Francisco J.
Identifier (type = local)
rucore30188700001
Location
PhysicalLocation (authority = marcorg); (displayLabel = Rutgers, The State University of New Jersey)
NjNbRU
Identifier (type = doi)
doi:10.7282/T3959KJ7
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Rights

RightsDeclaration (AUTHORITY = FS); (ID = rulibRdec0004)
Copyright for scholarly resources published in RUcore is retained by the copyright holder. By virtue of its appearance in this open access medium, you are free to use this resource, with proper attribution, in educational and other non-commercial settings. Other uses, such as reproduction or republication, may require the permission of the copyright holder.
Copyright
Status
Copyright protected
Availability
Status
Open
Reason
Permission or license
RightsEvent
Type
Permission or license
AssociatedObject
Type
License
Name
Multiple author license v. 1
Detail
I hereby grant to Rutgers, The State University of New Jersey (Rutgers) the non-exclusive right to retain, reproduce, and distribute the deposited work (Work) in whole or in part, in and from its electronic format, without fee. This agreement does not represent a transfer of copyright to Rutgers.Rutgers may make and keep more than one copy of the Work for purposes of security, backup, preservation, and access and may migrate the Work to any medium or format for the purpose of preservation and access in the future. Rutgers will not make any alteration, other than as allowed by this agreement, to the Work.I represent and warrant to Rutgers that the Work is my original work. I also represent that the Work does not, to the best of my knowledge, infringe or violate any rights of others.I further represent and warrant that I have obtained all necessary rights to permit Rutgers to reproduce and distribute the Work and that any third-party owned content is clearly identified and acknowledged within the Work.By granting this license, I acknowledge that I have read and agreed to the terms of this agreement and all related RUcore and Rutgers policies.
RightsEvent
Type
Embargo
DateTime (point = start); (encoding = w3cdtf)
2015-12-25
DateTime (point = end); (encoding = w3cdtf)
2016-05-01
Detail
Access to this PDF has been restricted at the publisher's request. It will be publicly available after May 1, 2016.
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Technical

RULTechMD (ID = TECHNICAL1)
ContentModel
Document
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