Abstract
A unique approach is proposed to boost on-chip immuno-sensors, for instance, immunoassays, wherein an antibody immobilized on the walls of a microfluidic channel binds specifically to an antigen suspended freely within a working fluid. The performance of these sensors can be limited in both susceptibility and response speed by the slow diffusive mass transfer of the analyte to the binding surface. Under appropriate conditions, the binding reaction of these heterogeneous immuno-assays may be enhanced by electroconvective stirring driven by external AC electric fields to accelerate the translating motion of antigens towards immobilized antibodies. To be specific, the phenomenon of induced-charge electroosmosis in a rotating electric field (ROT-ICEO) is fully utilized to stir analyte in the vicinity of the functionalized surface of an ideally polarizable floating electrode in all directions inside a tri-dimensional space. ROT-ICEO appears as a consequence of the action of a circularly-polarized traveling wave signal on its own induced rotary Debye screening charge within a bipolar induced double layer formed on the central floating electrode, and thereby the pertinent electrokinetic streamlines exhibit a radially converging pattern that greatly facilitates the convective transport of receptor towards the ligand. Numerical simulations indicate that ROT-ICEO can enhance the antigen–antibody binding reaction more effectively than convectional nonlinear electroosmosis driven by standing wave AC signals. The effectiveness of ROT-ICEO micro-stirring is strongly dependent on the Damkohler number as well as the Peclet number if the antigens are carried by a continuous base flow. Our results provide a promising way for achieving a highly efficient heterogeneous immunoassay in modern micro-total-analytical systems.
Highlights
Immunoassays, which is known as the specific binding reaction between the free antigens suspended in a fluid flow and the immobilized antibodies at a functionalized surface, have been broadly applied in medical diagnostics, quality control, biomarker identification, and environment monitoring for their high selectivity [1,2]
Traditional immunoassays, including microarrays and enzyme-linked immunosorbent assay (ELISA), usually require a vast sample volume and long cultivation time due to the complicated fluid handling steps involved at different stages of the assay [3,4,5,6]
As the optimum induced-charge electroosmosis (ICEO) slipping flow profile is created by case (i), we focus on the effect of ROT-ICEO micro-stirring on the antigen-antibody binding reaction on the functionalized surface of the central floating electrode (FE)
Summary
Immunoassays, which is known as the specific binding reaction between the free antigens suspended in a fluid flow and the immobilized antibodies at a functionalized surface, have been broadly applied in medical diagnostics, quality control, biomarker identification, and environment monitoring for their high selectivity [1,2]. ACEK mainly includes dielectrophoresis (both particles and stratified liquid contents) [27], AC electrothermal induced flow (ACET) [28,29,30], AC electroosmosis (ACEO) [31,32,33], and induced-charge electroosmosis (ICEO) [34,35,36] Both ACET and ACEO have been theoretically and experimentally exploited for accelerating the convective transport of antigens towards specific antibodies for enhancing the binding rate on functionalized electrode surfaces [37,38]. As a result, when the reaction rate is essentially much quicker than the diffusive transport of target analytes to the sensor surface in microchannels, it is necessary to explore a label-free and highly integrated detection strategy to boost the binding rate between antigen and antibody in diffusion-limited cases To address this issue, in this study, we propose an approach to transport the Micromachines 2020, 11, 739. IiCd EmOotfilounidwmithotaiornadwiaitllhyacorandviearlglyincgoflnovwergpianttgerflnoiws ipnadtutecrend iosninthdeucceendtroanl FthEebcyensutrcahl aFErobtyatsinugchelaecrtortiactifineglde,lencatmricelfyie, ltdh,enpahmeneloym, tehneopnhoefnRoOmTe-nIoCnEoOf.RBOyTn-uICmEeOri.caBlymnoudmeelirnicga,lRmOoTd-IeCliEnOg, iRsOshTo-IwCnEOto ibsesmhoowrenefftoecbtievemionrdeeelifvfeecrtiinvge tihne daneltiivgeerninsgamthpeleasnitnigaelnl dsiaremctpiloenssiannadllsudpirpercetsiosinnsgatnhde lseunpgpthreossfitnhgetdhieffluesnigotnhboofuthnedadriyffulasyioenr tbhoaunnodradriynalaryyenrotnhlainneoarrdeinleacrtyronoosnmlionseiasrderlievcetnroboysmAoCssistadnrdivineng wbyavAeCsisgtnanaldsi,ndguwe taovethseigancatilosn, doufeittsotrthi-ediamcteionnsioonf aitlscthria-odtiimc setnrseiaomnalilncehsa. otic streamlines
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