Abstract: A molecular sensing device and method are described that include a microfluidics layer, a transduction layer fluidly connected to the microfluidics layer, and a transceiver layer electro-mechanically connected to the transduction layer. The microfluidics layer is configured to collect a sample from an environment, the transduction layer is configured to detect a presence of a specific analyte within the sample, and the transceiver layer is configured to generate an electrical signal in response to the specific analyte detected by the transduction layer and configured to transmit the electrical signal. At least a portion of the transduction layer and/or at least a portion of the microfluidics layer is configured to be replaceable without replacing a remaining portion of the transduction layer or the microfluidics layer.

Abstract: A molecular sensing device and method are described that include a microfluidics layer, a transduction layer fluidly connected to the microfluidics layer, and a transceiver layer electro-mechanically connected to the transduction layer. The microfluidics layer is configured to collect a sample from an environment, the transduction layer is configured to detect a presence of a specific analyte within the sample, and the transceiver layer is configured to generate an electrical signal in response to the specific analyte detected by the transduction layer and configured to transmit the electrical signal. At least a portion of the transduction layer and/or at least a portion of the microfluidics layer is configured to be replaceable without replacing a remaining portion of the transduction layer or the microfluidics layer.