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Abstract
In this paper, we propose a highly efficient surface modification strategy on an AlGaN/GaN high electron mobility transistor (HEMT), where ethanolamine (EA) was utilized to functionalize the surface of GaN and provided amphoteric amine groups for probe molecular immobilization for bioassay application. The molecular gated-AlGaN/GaN HEMT was utilized for pH and prostate-specific antigen (PSA) detection to verify its performance as a biosensor. Benefitting from the high coating quality on the GaN surface, the performance of our biosensor is drastically improved compared to other AlGaN/GaN HEMT based pH and PSA biosensors reported before. Our molecular gated-AlGaN/GaN HEMT biosensor has achieved good static electrical performance for pH sensing, such as high sensitivity, good linearity and chemical stability. Moreover, after further immobilization of PSA antibody onto the EA aminated GaN surface, the limit of detection (LOD) for PSA detection is as low as 1 fg mL−1 in PBS buffer, which has reached an at least two orders of magnitude decrease compared to any other AlGaN/GaN HEMT based PSA biosensor reported before. And the sensitivity of our PSA biosensor has achieved a substantial increase, reaching up to 2.04% for 100 ng mL−1. The measurements of pH and PSA utilizing the EA modified AlGaN/GaN HEMT biosensor indicate that the surface modification strategy on the GaN proposed in this paper can effectively improve the performance of the AlGaN/GaN HEMT based biosensor, which demonstrates a promising application prospect in the AlGaN/GaN HEMT based biological detection field.
Highlights
Tremendous efforts in the efficient detection of biological analytes are being made due to signi cant applications in environmental monitoring, disease diagnosis and food safety, among others
Since pH detection is relatively simple in bioassay application, pH detection could be of our primary choice to verify the performance of our AlGaN/gallium nitride (GaN) high electron mobility transistor (HEMT)
The speci city and selectivity of our biosensor is explored by adding different concentrations of prostate-specific antigen (PSA) to the sensing membrane without immobilized anti-PSA (BSA was utilized to block the non-speci c reactive sites), from Fig. 9 we can hardly observe the source and drain current (Ids) change no matter what concentration of PSA was added, which illustrated that non-speci c binding cannot occur without anti-PSA, and the other substances in the PBS can only exert a slight in uence on our biosensor. These results demonstrate that by further modi cation of biological antibodies on the EA modi ed AlGaN/GaN HEMT, our biosensors are well suited for the detection of biomolecular
Summary
Tremendous efforts in the efficient detection of biological analytes are being made due to signi cant applications in environmental monitoring, disease diagnosis and food safety, among others. A third generation semiconductor material, represented by wide band gap gallium nitride (GaN), was considered to possess broad application prospects in the eld of biosensors for its excellent material properties.[7,8,9] An important application of GaN in the eld of biosensors is AlGaN/GaN HEMTs for its good biocompatibility, stable material properties and high sensitivity to the surface charge changes since the two-dimensional electron gas (2DEG) channel is well close to the surface. Our team developed molecular gatedAlGaN/GaN HEMT biosensors and have veri ed their
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