Gunn; Natalie

Patent Applications and Registrations

Patent applications and USPTO patent grants for Gunn; Natalie.The latest application filed is for "detection of translocation events using graphene-based nanopore assemblies".

Company Profile

1.5.6

Gunn; Natalie - Victoria AU
Gunn; Natalie - Eltham AU

*profile and listings may contain filings by different individuals or companies with the same name. Review application materials to confirm ownership/assignment.

Patent Activity

Patent	Date
Use of disulfide bonds to form a reversible and reusable coating for nanofluidic devices Grant 10,024,851 - Gunn , et al. July 17, 2	2018-07-17
Use of disulfide bonds to form a reversible and reusable coating for nanofluidic devices Grant 10,024,852 - Gunn , et al. July 17, 2	2018-07-17
Detection Of Translocation Events Using Graphene-based Nanopore Assemblies App 20180172632 - Baldauf; Julia S. ; et al.	2018-06-21
Detection of translocation events using graphene-based nanopore assemblies Grant 9,921,181 - Baldauf , et al. March 20, 2	2018-03-20
Methods for determining binding capability of target ligands with G protein-coupled receptors using translocation through nanochannels Grant 9,791,453 - Downton , et al. October 17, 2	2017-10-17
Detection Of Translocation Events Using Graphene-based Nanopore Assemblies App 20150377830 - Baldauf; Julia S. ; et al.	2015-12-31
Use Of Disulfide Bonds To Form A Reversible And Reusable Coating For Nanofluidic Devices App 20150104877 - Gunn; Natalie ; et al.	2015-04-16
Use Of Disulfide Bonds To Form A Reversible And Reusable Coating For Nanofluidic Devices App 20150104352 - Gunn; Natalie ; et al.	2015-04-16
Modifying single proteins (GPCR), ligands, and nanopore surfaces to create binding-induced molecular changes of protein-ligand complexes detected in nanochannel translocation Grant 8,835,362 - Downtown , et al. September 16, 2	2014-09-16
Modifying Proteins (gpcr), Ligands, And Nanopore Surfaces To Allow The Detection Of Create Binding-induced Molecular Changes Of Protein-ligand Complexes With Nanochannel Translocation App 20140179540 - Downtown; Matthew ; et al.	2014-06-26
Modifying Single Proteins (gpcr), Ligands, And Nanopore Surfaces To Create Binding-induced Molecular Changes Of Protein-ligand Complexes Detected In Nanochannel Translocation App 20140179541 - Downtown; Matthew ; et al.	2014-06-26

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