Deqiang Wang

Nanofluidic channels with gradual depth change for reducing entropic barrier of biopolymers

#2 | 2017-08-17

US20170234833A1

Increasing the capture zone by nanostructure patterns

#3 | 2016-08-04

US20160220996A1

Nanochannel device with three dimensional gradient by single step etching for molecular detection

#4 | 2016-07-21

US20160209394A1

Nanofluidic channels with gradual depth change for reducing entropic barrier of biopolymers

#5 | 2016-07-14

US20160199833A1

Nanofluidic channels with gradual depth change for reducing entropic barrier of biopolymers

#6 | 2015-11-12

US20150323490A1

Increasing the capture zone by nanostructure patterns

#7 | 2015-10-08

US20150285764A1

Reduction of entropic barrier of polyelectrolyte molecules in a nanopore device with agarose gel

#8 | 2015-10-08

US20150284791A1

Reduction of entropic barrier of polyelectrolyte molecules in a nanopore device with agarose gel

#9 | 2015-09-10

US20150252414A1

Nanochannel device with three dimensional gradient by single step etching for molecular detection

#10 | 2015-05-21

US20150141299A1

Fabricating self-formed nanometer pore array at wafer scale for DNA sequencing

#11 | 2015-02-05

US20150038691A1

POLYNUCLEOTIDE CONFIGURATION FOR RELIABLE ELECTRICAL AND OPTICAL SENSING

#12 | 2015-02-05

US20150037843A1

POLYNUCLEOTIDE CONFIGURATION FOR RELIABLE ELECTRICAL AND OPTICAL SENSING

#13 | 2015-02-05

US20150037787A1

POLYNUCLEOTIDE CONFIGURATION FOR RELIABLE ELECTRICAL AND OPTICAL SENSING

#14 | 2015-01-22

US20150024115A1

Nanofluidic channels with gradual depth change for reducing entropic barrier of biopolymers

#15 | 2015-01-22

US20150021187A1

Nanofluidic channels with gradual depth change for reducing entropic barrier of biopolymers

#16 | 2014-11-06

US20140326954A1

Integrated nanowire/nanosheet nanogap and nanopore for DNA and RNA sequencing

#17 | 2014-11-06

US20140326604A1

Integrated nanowire/nanosheet nanogap and nanopore for DNA and RNA sequencing

#18 | 2014-10-23

US20140312003A1

Fabrication of tunneling junction for nanopore DNA sequencing

#19 | 2014-10-23

US20140312002A1

Fabrication of tunneling junction for nanopore DNA sequencing

#20 | 2014-07-10

US20140190932A1

Electricity

Self-formed nanometer channel at wafer scale

#21 | 2014-06-05

US20140152330A1

Integrated carbon nanotube field effect transistor and nanochannel for sequencing

#22 | 2014-06-05

US20140152291A1

Integrated carbon nanotube field effect transistor and nanochannel for sequencing

#23 | 2014-05-29

US20140147835A1

BASE RECOGNITION BASED ON THE CONFORMATION CHANGE OF A MOTOR MOLECULE

#24 | 2014-05-29

US20140147833A1

BASE RECOGNITION BASED ON THE CONFORMATION CHANGE OF A MOTOR MOLECULE

#25 | 2014-02-18

US13971468

Self-formed nanometer channel at wafer scale

#26 | 2014-01-30

US20140027287A1

Increased molecule capture rate into a nanopore

#27 | 2013-11-14

US20130299945A1

Fabricate self-formed nanometer pore array at wafer scale for DNA sequencing

#28 | 2013-11-14

US20130299448A1

Fabricate self-formed nanometer pore array at wafer scale for DNA sequencing

#29 | 2013-10-10

US20130264219A1

Functionally switchable self-assembled coating compound for controlling translocation of molecule through nanopores

#30 | 2013-10-10

US20130263946A1

Functionally switchable self-assembled coating compound for controlling translocation of molecule through nanopores

#31 | 2012-12-27

US20120325656A1

Electron beam sculpting of tunneling junction for nanopore DNA sequencing

#32 | 2012-08-02

US20120193236A1