about
Sorting cells by their dynamical properties.A fast and scalable kymograph alignment algorithm for nanochannel-based optical DNA mappingsApplications of optical DNA mapping in microbiology.Extension of nanoconfined DNA: Quantitative comparison between experiment and theory.Microfluidics-Based Approaches to the Isolation of African Trypanosomes.Mechanical behavior of a supported lipid bilayer under external shear forces.Separation of parasites from human blood using deterministic lateral displacement.Photoluminescence study of as-grown vertically standing wurtzite InP nanowire ensembles.Growth parameter design for homogeneous material composition in ternary Ga(x)In(1-x)P nanowires.Controlled microfluidic switching in arbitrary time-sequences with low drag.Separation of pathogenic bacteria by chain length.Sorting cells by size, shape and deformability.Open channel deterministic lateral displacement for particle and cell sorting.Tuneable separation in elastomeric microfluidics devices.RhoB controls the Rab11-mediated recycling and surface reappearance of LFA-1 in migrating T lymphocytes.Use of PLL-g-PEG in micro-fluidic devices for localizing selective and specific protein binding.Tipping the balance of deterministic lateral displacement devices using dielectrophoresis.Nano-engineered living bacterial motors for active microfluidic mixing.Multidirectional sorting modes in deterministic lateral displacement devicesNanoconfinement-enhanced conformational response of single DNA molecules to changes in ionic environmentShear-driven motion of supported lipid bilayers in microfluidic channelsLabel-free enrichment of primary human skeletal progenitor cells using deterministic lateral displacement
P50
Q30818995-6F0782EE-0C2C-4905-8D3F-7A987A3C2AFFQ35602432-44217029-D74E-4553-9DB2-908936A604D5Q38669761-EB082B22-2684-4D29-B6FA-D9F802CCA9F0Q40978662-8F293683-7A20-45AF-9C9B-28E64D7661B0Q41990830-E1DA5E72-DCE1-4709-A992-62364448817FQ46028901-DD7FCD84-8136-4DFB-A025-6563E634D462Q46190624-34D0FF1A-167F-4EB9-AE55-37D377E6D9E9Q46217121-110E30F1-6661-47B6-8403-508B15995458Q46658448-5BA7E355-EBCD-49D5-9D9B-284A329FF231Q46979451-BDCFBCA3-F51C-46A7-9183-6DF39C0025F1Q47208733-BC075512-E032-46E8-889C-DCAFE44B3FDFQ47326964-C42181C5-A5AC-4BA4-8ECC-4BAEB66055A0Q47632718-D32EC4E6-A70C-4E19-9A54-B306D3078154Q47754942-17DECA4E-AF2C-4110-BFF3-BF97C8E3C111Q48131115-C31FB011-8725-4ECB-A809-53A0BD0951EAQ51104421-A9286FF9-F410-419F-9A9F-1BD84158D046Q51564091-85A2B88D-3EDE-4E80-A177-32349F97006AQ54380730-92975FC5-8000-4325-8753-F0E9969B02D3Q62517543-0E37FC98-3461-44DB-8BCC-BB716AAAE485Q81428284-04DE391A-67FB-4F22-A47E-B739A7BA8BDDQ83524274-323E7B80-F886-40F6-AD14-D4201BD1BBB2Q90996498-0A39FF55-92C1-4563-BE5A-26DA8859C688
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Jason P Beech
@ast
Jason P Beech
@en
Jason P Beech
@es
Jason P Beech
@nl
Jason P Beech
@sl
type
label
Jason P Beech
@ast
Jason P Beech
@en
Jason P Beech
@es
Jason P Beech
@nl
Jason P Beech
@sl
prefLabel
Jason P Beech
@ast
Jason P Beech
@en
Jason P Beech
@es
Jason P Beech
@nl
Jason P Beech
@sl
P1053
A-5831-2010
P106
P108
P21
P31
P3829
P3946
P496
0000-0002-1347-4657