{"id":5476,"date":"2026-06-17T09:49:14","date_gmt":"2026-06-17T01:49:14","guid":{"rendered":"https:\/\/whmicro.com\/?p=5476"},"modified":"2026-06-17T09:49:14","modified_gmt":"2026-06-17T01:49:14","slug":"pcb-integrated-electrochemical-microfluidic-array-chip-a-modular-reusable-and-disassemblable-solution","status":"publish","type":"post","link":"https:\/\/whmicro.com\/?p=5476","title":{"rendered":"PCB-Integrated Electrochemical Microfluidic Array Chip: A Modular, Reusable, and Disassemblable Solution"},"content":{"rendered":"<p>[vc_row rt_row_background_width=&#8221;default&#8221; rt_row_style=&#8221;default-style&#8221; rt_row_borders=&#8221;&#8221; rt_row_paddings=&#8221;true&#8221; rt_bg_effect=&#8221;classic&#8221; rt_bg_image_repeat=&#8221;repeat&#8221; rt_bg_size=&#8221;cover&#8221; rt_bg_position=&#8221;right top&#8221; rt_bg_attachment=&#8221;scroll&#8221; rt_bg_video_format=&#8221;self-hosted&#8221;][vc_column width=&#8221;4\/5&#8243; rt_wrp_col_paddings=&#8221;false&#8221; rt_border_top=&#8221;&#8221; rt_border_bottom=&#8221;&#8221; rt_border_left=&#8221;&#8221; rt_border_right=&#8221;&#8221; rt_border_top_mobile=&#8221;&#8221; rt_border_bottom_mobile=&#8221;&#8221; rt_border_left_mobile=&#8221;&#8221; rt_border_right_mobile=&#8221;&#8221; rt_bg_image_repeat=&#8221;repeat&#8221; rt_bg_size=&#8221;auto auto&#8221; rt_bg_position=&#8221;right top&#8221; rt_bg_attachment=&#8221;scroll&#8221;][vc_column_text]<\/p>\n<p>\u6211\u662f\u6587\u672c\u5757\u3002\u5355\u51fb\u201c\u7f16\u8f91\u201d\u6309\u94ae\u6765\u66f4\u6539\u6b64\u6587\u672c.<\/p>\n<p>[\/vc_column_text][\/vc_column][vc_column width=&#8221;1\/5&#8243; rt_wrp_col_paddings=&#8221;false&#8221; rt_border_top=&#8221;&#8221; rt_border_bottom=&#8221;&#8221; rt_border_left=&#8221;&#8221; rt_border_right=&#8221;&#8221; rt_border_top_mobile=&#8221;&#8221; rt_border_bottom_mobile=&#8221;&#8221; rt_border_left_mobile=&#8221;&#8221; rt_border_right_mobile=&#8221;&#8221; rt_bg_image_repeat=&#8221;repeat&#8221; rt_bg_size=&#8221;auto auto&#8221; rt_bg_position=&#8221;right top&#8221; rt_bg_attachment=&#8221;scroll&#8221;][vc_widget_sidebar sidebar_id=&#8221;sidebar-for-portfolio&#8221;][\/vc_column][\/vc_row][vc_row rt_row_background_width=&#8221;default&#8221; rt_row_style=&#8221;default-style&#8221; rt_row_borders=&#8221;&#8221; rt_row_paddings=&#8221;true&#8221; rt_bg_effect=&#8221;classic&#8221; rt_bg_image_repeat=&#8221;repeat&#8221; rt_bg_size=&#8221;cover&#8221; rt_bg_position=&#8221;right top&#8221; rt_bg_attachment=&#8221;scroll&#8221; rt_bg_video_format=&#8221;self-hosted&#8221;][vc_column rt_wrp_col_paddings=&#8221;false&#8221; rt_border_top=&#8221;&#8221; rt_border_bottom=&#8221;&#8221; rt_border_left=&#8221;&#8221; rt_border_right=&#8221;&#8221; rt_border_top_mobile=&#8221;&#8221; rt_border_bottom_mobile=&#8221;&#8221; rt_border_left_mobile=&#8221;&#8221; rt_border_right_mobile=&#8221;&#8221; rt_bg_image_repeat=&#8221;repeat&#8221; rt_bg_size=&#8221;auto auto&#8221; rt_bg_position=&#8221;right top&#8221; rt_bg_attachment=&#8221;scroll&#8221;][vc_column_text]<\/p>\n<p class=\"ds-markdown-paragraph\"><span class=\"\">The industrialization of microfluidic chips has long faced a practical tension: laboratory\u2011level prototypes tend to be costly, while designs intended for mass production often compromise on flexibility. In recent years, PCB\u2011based microfluidic solutions have drawn growing attention from researchers. This article introduces a PCB\u2011integrated electrochemical microfluidic array chip that uses PMMA (acrylic)\u5939\u5177 as a clamping package, offering a relatively systematic overview of its structural design, material choices, and potential applications.<\/span><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">I. Structural Design<\/span><\/strong><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">1. PCB Electrode Layer<\/span><\/strong><\/p>\n<p class=\"ds-markdown-paragraph\"><span class=\"\">The core of the chip is a green FR\u20114 printed circuit board, on which a radial wiring layout leads to a circular array of individual working electrodes (labeled U17 to U33). The electrode surfaces are gold\u2011plated, taking advantage of gold\u2019s chemical inertness and low impedance, making them suitable for electrochemical detection.<\/span><\/p>\n<p class=\"ds-markdown-paragraph\"><span class=\"\">Each electrode has its own independent trace, allowing connection to a multi\u2011channel potentiostat. This enables parallel detection as well as droplet manipulation via electrowetting\u2011on\u2011dielectric (EWOD) or dielectrophoresis. The radial routing is a straightforward design choice\u2014it shortens trace lengths and helps reduce crosstalk between adjacent electrodes.<\/span><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">2. Microfluidic Cavity Layer<\/span><\/strong><\/p>\n<p class=\"ds-markdown-paragraph\"><span class=\"\">Between the PCB and the top cover plate, a transparent PMMA (acrylic) sheet is sandwiched, with two independent microfluidic cavities etched into it. Three PTFE tubing ports are provided for sample inlet, waste outlet, and buffer solution flow, allowing liquid samples to be introduced.<\/span><\/p>\n<p class=\"ds-markdown-paragraph\"><span class=\"\">The dual independent chambers offer the benefit of running two sets of experiments without cross\u2011interference, which is convenient for control experiments or parallel sample assays.<\/span><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">3. Packaging Clamp<\/span><\/strong><\/p>\n<p class=\"ds-markdown-paragraph\"><span class=\"\">The packaging consists of upper and lower transparent acrylic plates secured by stainless steel locking screws, achieving fluidic sealing through mechanical compression. This approach has several notable features: it does not require thermal bonding, thus avoiding potential heat\u2011induced damage to electrodes or channel structures; it is disassemblable, so the chip can be cleaned and reused after use; and the acrylic is transparent, allowing compatibility with inverted microscopes for optical observation.<\/span><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">II. Considerations on Material Selection<\/span><\/strong><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">PCB electrodes<\/span><\/strong><span class=\"\">\u00a0offer relatively low fabrication costs for volume production, high precision in electrode array layout, and individually addressable channels\u2014these characteristics make them a viable alternative to conventional ITO glass electrodes in certain contexts. For high\u2011throughput parallel experiments, the PCB approach shows a clear cost\u2011effectiveness advantage. The gold surface is well\u2011suited for biosensing and electrochemical voltammetry, which are mature application areas.<\/span><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">PMMA acrylic<\/span><\/strong><span class=\"\">\u00a0exhibits good chemical inertness and is compatible with aqueous buffers and some mild organic solvents. Its optical transparency supports fluorescence and bright\u2011field microscopy. The mechanically clamped structure means the chip can be disassembled, cleaned, and reused\u2014a feature that may be particularly attractive for research groups with limited budgets.<\/span><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">The mechanical locking mechanism<\/span><\/strong><span class=\"\">\u00a0eliminates the need for adhesives, avoiding potential contamination of microchannels by glue residues. Assembly and disassembly are straightforward, and the clamp can accommodate different thicknesses of the microfluidic interlayer\u2014if a different channel design is needed, only the middle layer needs to be replaced.<\/span><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">III. Typical Application Scenarios<\/span><\/strong><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">Biosensing<\/span><\/strong><span class=\"\">\u00a0is one of the most direct applications. The multi\u2011channel parallel detection capability allows simultaneous electrochemical signal acquisition from proteins, nucleic acids, cellular metabolites, and small\u2011molecule biomarkers (e.g., glucose, dopamine).<\/span><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">Digital microfluidics (EWOD)<\/span><\/strong><span class=\"\">\u00a0\u2014the radial electrode array can be employed for dielectrophoretic and electrowetting manipulation, enabling droplet sorting, mixing, and reactions.<\/span><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">High\u2011throughput drug screening<\/span><\/strong><span class=\"\">\u00a0can leverage the dual independent channels to collect electrochemical signals from both control and experimental groups in parallel, improving experimental efficiency.<\/span><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">Rapid environmental water quality testing<\/span><\/strong><span class=\"\">\u2014the multiple channels can concurrently measure heavy metals, organic pollutants, and other indicators.<\/span><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">IV. Key Design Features<\/span><\/strong><\/p>\n<p class=\"ds-markdown-paragraph\"><span class=\"\">In summary, the chip embodies several clear design priorities:<\/span><\/p>\n<ul>\n<li>\n<p class=\"ds-markdown-paragraph\"><span class=\"\">Dual independent reaction chambers, free from mutual interference, suitable for parallel assays;<\/span><\/p>\n<\/li>\n<li>\n<p class=\"ds-markdown-paragraph\"><span class=\"\">Radial wiring shortens trace lengths, helping to reduce inter\u2011electrode crosstalk;<\/span><\/p>\n<\/li>\n<li>\n<p class=\"ds-markdown-paragraph\"><span class=\"\">A relatively large number of arrayed electrodes supports high\u2011throughput parallel data acquisition;<\/span><\/p>\n<\/li>\n<li>\n<p class=\"ds-markdown-paragraph\"><span class=\"\">Modular and disassemblable\u2014the PCB electrode, microfluidic channel, and clamp can be individually replaced or maintained.<\/span><\/p>\n<\/li>\n<\/ul>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">V. Supporting Equipment<\/span><\/strong><\/p>\n<p class=\"ds-markdown-paragraph\"><span class=\"\">Using this type of chip requires a multi\u2011channel potentiostat to read current or voltage signals from each electrode. For simultaneous optical monitoring, an inverted microscope can be placed beneath the chip to enable combined electrochemical and optical imaging.<\/span><\/p>\n<p class=\"ds-markdown-paragraph\"><strong><span class=\"\">Concluding Remarks<\/span><\/strong><\/p>\n<p class=\"ds-markdown-paragraph\"><span class=\"\">The PCB\u2011plus\u2011PMMA\u2011clamp approach essentially strikes a balance among cost, performance, and flexibility. It is neither a single\u2011use disposable chip nor a complex, expensive all\u2011glass device. For research that involves frequent protocol adjustments or aims to reduce long\u2011term operating costs, this modular, reusable design may be worth considering.<\/span><\/p>\n<p>[\/vc_column_text][\/vc_column][\/vc_row]<\/p>\n","protected":false},"excerpt":{"rendered":"<p>[vc_row rt_row_background_width=&#8221;default&#8221; rt_row_style=&#8221;default-style&#8221; rt_row_borders=&#8221;&#8221; rt_row_paddings=&#8221;true&#8221; rt_bg_effect=&#8221;classic&#8221; rt_bg_image_repeat=&#8221;repeat&#8221; rt_bg_size=&#8221;cover&#8221; rt_bg_position=&#8221;right top&#8221; rt_bg_attachment=&#8221;scroll&#8221; rt_bg_video_format=&#8221;self-hosted&#8221;][vc_column width=&#8221;4\/5&#8243; rt_wrp_col_paddings=&#8221;false&#8221; rt_border_top=&#8221;&#8221; rt_border_bottom=&#8221;&#8221; rt_border_left=&#8221;&#8221; rt_border_right=&#8221;&#8221; rt_border_top_mobile=&#8221;&#8221; rt_border_bottom_mobile=&#8221;&#8221; rt_border_left_mobile=&#8221;&#8221; rt_border_right_mobile=&#8221;&#8221; rt_bg_image_repeat=&#8221;repeat&#8221; rt_bg_size=&#8221;auto auto&#8221; rt_bg_position=&#8221;right top&#8221; rt_bg_attachment=&#8221;scroll&#8221;][vc_column_text] \u6211\u662f\u6587\u672c\u5757\u3002\u5355\u51fb\u201c\u7f16\u8f91\u201d\u6309\u94ae\u6765\u66f4\u6539\u6b64\u6587\u672c. 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