Add to ORKGSince wood is a renewable, biodegradable naturally occurring material, the development of conductive patterns on wood substrates is a new and innovative chapter in sustainable electronics and sensors. Herein, we describe the first wooden (bio)sensing device fabricated via diode laser-induced graphitization. For this purpose, a wooden tongue depressor (WTD) is laser-treated and converted to an electrochemical multiplex biosensing device for oral fluid analysis. A low-cost laser engraver, equipped with a low-power (0.5 W) diode laser, programmably irradiates the surface of the WTD, forming two mini electrochemical cells (e-cells). The two e-cells consist of four graphite electrodes: two working electrodes, a common counter, and a common refer...
The anxiety and pain associated with frequent finger pricking has always been troublesome for diabet...
We present here our work on the fabrication of paper-based multiplexed diagnostic sensors, using dir...
With the recent rise of nanotechnology, the cutting-edge of biosensor technology has rapidly progres...
The development of simple sensing platforms for evaluating the oral conditions has attracted great a...
The analysis of salivary markers has grown into a promising non-invasive route for easy, safe, and p...
A lab-on-a-chip (LOC)-based non-invasive optical sensor for measuring glucose in saliva was fabricat...
The design and synthesis of artificial receptors based on molecular imprinting (MI) technology for t...
In this study, we describe a monolithic and fully integrated paper-based device for the simultaneous...
Ecologically friendly wood electronics will help alleviating the shortcomings of state-of-art cellul...
Lactate monitoring is an important issue in the food industry, in clinical diagnosis and sport medic...
A disposable tri-enzymatic biosensor is presented for the determination of α-amylase in human saliva...
A disposable tri-enzymatic biosensor is presented for the determination of α-amylase in human saliva...
A disposable tri-enzymatic biosensor is presented for the determination of α-amylase in human saliva...
A disposable tri-enzymatic biosensor is presented for the determination of α-amylase in human saliva...
A disposable tri-enzymatic biosensor is presented for the determination of α-amylase in human saliva...
The anxiety and pain associated with frequent finger pricking has always been troublesome for diabet...
We present here our work on the fabrication of paper-based multiplexed diagnostic sensors, using dir...
With the recent rise of nanotechnology, the cutting-edge of biosensor technology has rapidly progres...
The development of simple sensing platforms for evaluating the oral conditions has attracted great a...
The analysis of salivary markers has grown into a promising non-invasive route for easy, safe, and p...
A lab-on-a-chip (LOC)-based non-invasive optical sensor for measuring glucose in saliva was fabricat...
The design and synthesis of artificial receptors based on molecular imprinting (MI) technology for t...
In this study, we describe a monolithic and fully integrated paper-based device for the simultaneous...
Ecologically friendly wood electronics will help alleviating the shortcomings of state-of-art cellul...
Lactate monitoring is an important issue in the food industry, in clinical diagnosis and sport medic...
A disposable tri-enzymatic biosensor is presented for the determination of α-amylase in human saliva...
A disposable tri-enzymatic biosensor is presented for the determination of α-amylase in human saliva...
A disposable tri-enzymatic biosensor is presented for the determination of α-amylase in human saliva...
A disposable tri-enzymatic biosensor is presented for the determination of α-amylase in human saliva...
A disposable tri-enzymatic biosensor is presented for the determination of α-amylase in human saliva...
The anxiety and pain associated with frequent finger pricking has always been troublesome for diabet...
We present here our work on the fabrication of paper-based multiplexed diagnostic sensors, using dir...
With the recent rise of nanotechnology, the cutting-edge of biosensor technology has rapidly progres...