Add to ORKGA novel microelectrode array (DO-MEA) sensor was designed and fabricated using microelectromechanical systems technology on a needle for real time measurement of dissolved oxygen (DO). The sensor consisted of eleven gold disk microelectrodes and a rectangular auxiliary electrode along them. The sensor can also be operated with an integrated reference system. Three different sensor designs were fabricated, and their responses were fully characterized and evaluated. The DO-MEA sensor presented a linear response in the 0-8 mg DO·L-1 concentration range in water, displaying high sensitivity and repeatability. Knowledge of bacterial activity inside biofilms is key to the optimization of applied biotechnologies. The developed sensor was validated...
The development of needle-type environmental microsensor techniques is a revolutionary advancement i...
The development of needle-type environmental microsensor techniques is a revolutionary advancement i...
A heterogeneous respirometer (HR) was coupled for the first time to a microelectrode monitoring syst...
A novel microelectrode array (DO-MEA) sensor was designed and fabricated using microelectromechanica...
AbstractA novel microelectrode array (DO-MEA) sensor was designed and fabricated using microelectrom...
A novel microelectrode array (DO-MEA) sensor was designed and fabricated using microelectromechanica...
Knowledge of bacterial activity inside biofilms is key to the optimization of applied biotechnologie...
Knowledge of bacterial activity inside biofilms is key to the optimization of applied biotechnologie...
A novel microelectrode array sensor was fabricated using MEMS technology on a needle, and then appli...
Understanding of the processes taking place inside biofilms is a key parameter to progress in the op...
A novel sensing device for simultaneous dissolved oxygen (DO) and pH monitoring specially designed f...
A novel sensing device for simultaneous dissolved oxygen (DO) and pH monitoring specially designed f...
Understanding of the processes taking place inside biofilms is a key parameter to progress in the op...
A novel sensing device for simultaneous dissolved oxygen (DO) and pH monitoring specially designed f...
A novel sensing device for simultaneous dissolved oxygen (DO) and pH monitoring specially designed f...
The development of needle-type environmental microsensor techniques is a revolutionary advancement i...
The development of needle-type environmental microsensor techniques is a revolutionary advancement i...
A heterogeneous respirometer (HR) was coupled for the first time to a microelectrode monitoring syst...
A novel microelectrode array (DO-MEA) sensor was designed and fabricated using microelectromechanica...
AbstractA novel microelectrode array (DO-MEA) sensor was designed and fabricated using microelectrom...
A novel microelectrode array (DO-MEA) sensor was designed and fabricated using microelectromechanica...
Knowledge of bacterial activity inside biofilms is key to the optimization of applied biotechnologie...
Knowledge of bacterial activity inside biofilms is key to the optimization of applied biotechnologie...
A novel microelectrode array sensor was fabricated using MEMS technology on a needle, and then appli...
Understanding of the processes taking place inside biofilms is a key parameter to progress in the op...
A novel sensing device for simultaneous dissolved oxygen (DO) and pH monitoring specially designed f...
A novel sensing device for simultaneous dissolved oxygen (DO) and pH monitoring specially designed f...
Understanding of the processes taking place inside biofilms is a key parameter to progress in the op...
A novel sensing device for simultaneous dissolved oxygen (DO) and pH monitoring specially designed f...
A novel sensing device for simultaneous dissolved oxygen (DO) and pH monitoring specially designed f...
The development of needle-type environmental microsensor techniques is a revolutionary advancement i...
The development of needle-type environmental microsensor techniques is a revolutionary advancement i...
A heterogeneous respirometer (HR) was coupled for the first time to a microelectrode monitoring syst...