Microfluidic device and method for processing of macromolecules

Publication: ResearchPatent – Annual report year: 2012

Standard

Microfluidic device and method for processing of macromolecules. / Kristensen, Anders (Inventor); Marie, Rodolphe (Inventor); Rasmussen, Kristian Hagsted (Inventor); Kalim Ullah, Mir (Inventor).

IPC No.: B01L3/00. Patent No.: WO2012055415. May 03, 2012.

Publication: ResearchPatent – Annual report year: 2012

Harvard

Kristensen, A, Marie, R, Rasmussen, KH & Kalim Ullah, M May. 03 2012, Microfluidic device and method for processing of macromolecules, Patent No. WO2012055415, IPC No. B01L3/00.

APA

Kristensen, A., Marie, R., Rasmussen, K. H., & Kalim Ullah, M. (2012). IPC No. B01L3/00. Patent No. WO2012055415.

CBE

Kristensen A, Marie R, Rasmussen KH, Kalim Ullah M, inventors. 03-May-2012. Microfluidic device and method for processing of macromolecules. IPC No. B01L3/00. Patent No. WO2012055415.

MLA

Vancouver

Kristensen A, Marie R, Rasmussen KH, Kalim Ullah M, inventors. Microfluidic device and method for processing of macromolecules. IPC No. B01L3/00. Patent No. WO2012055415. May 03, 2012.

Author

Kristensen, Anders (Inventor); Marie, Rodolphe (Inventor); Rasmussen, Kristian Hagsted (Inventor); Kalim Ullah, Mir (Inventor) / Microfluidic device and method for processing of macromolecules.

IPC No.: B01L3/00. Patent No.: WO2012055415. May 03, 2012.

Publication: ResearchPatent – Annual report year: 2012

Bibtex

@misc{db88404ad71e47cba10a6618c711e77a,
title = "Microfluidic device and method for processing of macromolecules",
author = "Anders Kristensen and Rodolphe Marie and Rasmussen, {Kristian Hagsted} and {Kalim Ullah}, Mir",
note = "DTU reference nummer: 92542-10; WO2012055415; B01L3/00",
year = "2012",
type = "Patent <importModel: PatentImportModel>",

}

RIS

TY - PAT

T1 - Microfluidic device and method for processing of macromolecules

A1 - Kristensen,Anders

A1 - Marie,Rodolphe

A1 - Rasmussen,Kristian Hagsted

A1 - Kalim Ullah,Mir

AU - Kristensen,Anders

AU - Marie,Rodolphe

AU - Rasmussen,Kristian Hagsted

AU - Kalim Ullah,Mir

PY - 2012

Y1 - 2012

N2 - A microfluidic device and method for enzymatic processing of ultra-long macromolecules is disclosed. The device comprises a reaction chamber with a first manifold, a second manifold, and a plurality of reaction channels, each reaction channel extending from the first manifold to the second manifold. The device further comprises first inlet and outlet channels for filling the reaction channels via the manifolds with one or more macromolecule containers suspended in a first carrier fluid, wherein the first inlet and outlet channels are configured such that a flow established from the first set of inlets to the first set of outlets is guided through the reaction channels, and second inlet and outlet channels for feeding an enzymatic reagent to the reaction chamber essentially without displacing the macromolecule containers trapped in the reaction channels, wherein the second set of inlets and outlets are configured such that a flow established from the second inlet to the second outlet is guided through at least one of the manifolds and bypasses the reaction channels.

AB - A microfluidic device and method for enzymatic processing of ultra-long macromolecules is disclosed. The device comprises a reaction chamber with a first manifold, a second manifold, and a plurality of reaction channels, each reaction channel extending from the first manifold to the second manifold. The device further comprises first inlet and outlet channels for filling the reaction channels via the manifolds with one or more macromolecule containers suspended in a first carrier fluid, wherein the first inlet and outlet channels are configured such that a flow established from the first set of inlets to the first set of outlets is guided through the reaction channels, and second inlet and outlet channels for feeding an enzymatic reagent to the reaction chamber essentially without displacing the macromolecule containers trapped in the reaction channels, wherein the second set of inlets and outlets are configured such that a flow established from the second inlet to the second outlet is guided through at least one of the manifolds and bypasses the reaction channels.

M1 - WO2012055415

Y2 - 2012/05/03

ER -