The microbial fuel cell (MFC) as one of green energy harvesting techniques can reach the goal of simultaneous pollutants removal and power generation through electroactive bacteria (EAB). In addition, with the advantages of shorter reaction time, microfluidic microbial fuel cell (mMFC) has been developed by combining small-scale MFC and laminar flow, and it has potential to be applied in biosensors to detect pollutants. In this study, laminar-flow based mMFC is constructed to monitor environmental toxicity of heavy metal by electroactive microorganisms. Carbon paper is used as the anode electrode, with EAB such as Shewanella oneidensis, Pseudomonas delhiensis and Pseudomonas citronellolis cultivated on it. Synthetic wastewater with sodium acetate was the anolyte and different concentrations of Chromium and Copper were added for observing the relationship between extent of inhibition and heavy metal concentrations by measuring open circuit and closed circuit voltages of mMFC. Consequently, we successfully constructed a fast-screening system for heavy metals in different concentration ranges. Common heavy-metal toxicity testing methods, including measurement of bacterial growth using absorbance at 600 nm wave length, crystal violet staining, and Microtox, were measured in this work for comparison and verifying the feasibility of our newly constructed system. Results showed that around 0 mM－0.125 mM of Chromium and 0.125 mM－1.0 mM of Copper, accurate relationship was observed between the concentrations and the extent of inhibition of EAB, achieving R2 = 0.99. For Copper, Pseudomonas delhiensis had better performance and wider concentration ranges. In addition, after compared with other three methods, laminar-flow based mMFC constructed in this study was observed to perform similar trend with bacterial growth measurement at OD600. Both of the methods can be formulated as natural logarithm similar to bacterial growth curves. In conclusion, we confirmed the potential of laminar-flow based mMFC as biosensor for fast-screening of toxicity substance in wastewater.