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Microfabricated microbial fuel cell arrays reveal electrochemically active microbesCharacterization of controlled bone defects using 2D and 3D ultrasound imaging techniques.Micro-macro hybrid soft-lithography master (MMHSM) fabrication for lab-on-a-chip applications.Microfluidic systems for axonal growth and regeneration researchDevelopment of a real-time microchip PCR system for portable plant disease diagnosisA magnetic resonance (MR) microscopy system using a microfluidically cryo-cooled planar coilA high-throughput microfluidic single-cell screening platform capable of selective cell extraction.Multi-compartment neuron-glia co-culture platform for localized CNS axon-glia interaction study.A microchip for quantitative analysis of CNS axon growth under localized biomolecular treatments.A multi-compartment CNS neuron-glia Co-culture microfluidic platform.Microfabricated devices in microbial bioenergy sciences.Microfluidic geometric metering-based multi-reagent mixture generator for robust live cell screening array.Thermoresponsive double network micropillared hydrogels for controlled cell release.A microfluidic photobioreactor array demonstrating high-throughput screening for microalgal oil production.A programmable microfluidic cell array for combinatorial drug screening.Quantification of the heterogeneity in breast cancer cell lines using whole-cell impedance spectroscopy.Micropatterning of poly(dimethylsiloxane) using a photoresist lift-off technique for selective electrical insulation of microelectrode arrays.Microfluidic compartmentalized co-culture platform for CNS axon myelination research.A microfluidically cryocooled spiral microcoil with inductive coupling for MR microscopy.Microfluidic electro-sonoporation: a multi-modal cell poration methodology through simultaneous application of electric field and ultrasonic wave.Microchemostat array with small-volume fraction replenishment for steady-state microbial culture.Conjugated oligoelectrolytes increase power generation in E. coli microbial fuel cells.High performance monolithic power management system with dynamic maximum power point tracking for microbial fuel cells.Thermoresponsive nanocomposite hydrogels with cell-releasing behavior.A Three-Dimensional Arrayed Microfluidic Blood-Brain Barrier Model With Integrated Electrical Sensor Array.A microfluidic microbial fuel cell array that supports long-term multiplexed analyses of electricigens.Ion channel characterization using single cell impedance spectroscopy.Microfluidic acoustophoretic force based low-concentration oil separation and detection from the environment.Air-cathode microbial fuel cell array: a device for identifying and characterizing electrochemically active microbes.Multi-layer plastic/glass microfluidic systems containing electrical and mechanical functionality.Dynamic Flow Characteristics and Design Principles of Laminar Flow Microbial Fuel CellsInfluence of nanoparticle inclusions on the performance of reverse osmosis membranesPRESCIENT: platform for the rapid evaluation of antibody success using integrated microfluidics enabled technologyA continuous-flow acoustofluidic cytometer for single-cell mechanotyping
P50
Q33492282-AA9020FB-A68C-45B1-B7DB-BBF5B4E1B266Q33647705-58077C2D-F67D-4DE7-9D01-ECD93567B178Q33830643-6E0A584E-C6AB-45AF-8FFE-CC687CF3DDD2Q34546162-97F265B4-9279-4A48-85F5-7796BE10293AQ35070452-482BF4FC-9547-4B93-872D-F47E3E91FB87Q35091532-065BD081-B92D-4004-BBC6-AD49135439C1Q35621907-AF6738FC-FE99-4BBC-BF4F-A6AA3616C16CQ36185573-4044890C-13B7-41C7-AA96-42BC60AC0DA8Q37393507-D07AA7A7-21A4-4FEC-BDDA-A7F18E70A664Q37414441-C4A235ED-1756-4D61-A7EF-521FDAF77D0AQ38085868-BE5378C6-63B7-48CE-8F09-AED2729FE597Q38967098-DF3DF43A-F738-4A2A-ADCC-BA665B17FBF8Q38982026-EC654BED-CA85-4061-81B4-E5C2C680EF39Q39256356-B824F49D-FAB5-4FAA-B8E8-D1C429AC13F8Q39372646-082409BE-19AD-470F-99C9-8604D0651C4EQ40187938-3F980D61-3175-4F74-9921-71E89825B4E7Q41763600-6B806833-448F-48D0-9AF8-BC5B7F0344D9Q42177041-DFC08972-1E62-45FB-9EE9-9F1C040053A3Q43604968-BD826788-5FBF-4DC6-9020-40D03B7BF1B2Q44253522-3AC4187A-FBB2-4A11-AF5B-58419165A45AQ45195863-BC2ABF09-E2F9-4B4C-868E-E724BD6AB96DQ46136566-5B945F8E-6019-4FF7-A797-14366AECA4B7Q46314616-1771CF5B-2E32-4992-B5C4-C4D2A0589886Q46612576-C370262E-6A7F-48BB-A9C0-B50D90561376Q47854110-CD57EF26-5B84-4901-AA0E-5BFE0D063246Q50492514-62477DA7-46A3-49A7-9AAE-75C6C2628912Q51113233-A59834EB-D409-494E-9B1B-F1CB5FF2A7E5Q51524373-B2E18D87-921F-4091-8226-F575C5371D71Q51556291-F12FF652-E4FA-4229-A838-BF765C85E8E6Q51597430-194EC6EE-524F-430D-A3A6-3AEE38A86C64Q58708274-2B97D5F4-8B2D-439B-BB9F-FAFC4A042062Q59282349-1EFB3312-9777-49CF-916E-16FF89C3443CQ90495576-083A7BF5-7220-49EE-AECF-07AEB9D8863FQ91067160-6177B525-86CB-4965-96A5-18A88F3FC6B8
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Arum Han
@ast
Arum Han
@en
Arum Han
@es
Arum Han
@nl
type
label
Arum Han
@ast
Arum Han
@en
Arum Han
@es
Arum Han
@nl
prefLabel
Arum Han
@ast
Arum Han
@en
Arum Han
@es
Arum Han
@nl
P1053
C-7078-2013
P106
P1153
7101996090
P31
P3829
P496
0000-0002-9223-8301