A team of scientists at the University of California, Santa Barbara, have developed an atomically thin, 2D, ultrasensitive semiconductor material for biosensing uses.
Based on molybdenum disulfide or molybdenite, the dry lubricant material surpasses graphene’s high sensitivity, offers better scalability, and lends itself to high-volume manufacturing, they say.
Their invention may lead to a new generation of ultrasensitive and low-cost biosensors that could eventually allow single-molecule detection. The key, they explained, is the material’s band gap, which determines its electrical conductivity.
Semiconductor materials have a small but non-zero band gap and can be switched between conductive and insulated states controllably. The larger the band gap, the better its ability to switch states and to insulate leakage current in an insulated state. Molybdenite’s wide band gap allows current to travel, but prevents leakage resulting in more sensitive and accurate readings. And, 2D molybdenite is relatively simple to manufacture, they say, which could lead to low-cost mass production.
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