Abstract: “Screen printing ” is one of the most promising technology allowing chemical sensors and biosensors to be largely on the market in the next future as analytical devices. Amperometric or conductometric electrodes, printed on ceramic or polymeric substrates and coupled with screen printed layers of enzymes and polymers, can be easily assembled for obtaining biological or chemical sensors. The chances of mass and low cost production and reproducibility are critically reviewed examining some devices developeding in ENEA laboratories
This review describes recent advances in the fabrication of electrochemical (bio)sensors based on sc...
A screen-printed amperometric enzyme biosensor has been studied for wide variety of fields such as f...
Despite substantial advances in sensing technologies, the development, preparation, and use of self-...
This chapter describes a number of approaches for the fabrication of prototype screen-printed electr...
The commercialization of integrated chemical sensors has been slowed by the difficulty of device enc...
The focus of this report is electroanalysis performed via screen-printed electrodes. All the basic c...
Screen printing or thick film technology is a widely know approach to manufacture disposable and low...
Printed electrochemical biosensors have recently gained increasing relevance in fields ranging from ...
Printed electrochemical biosensors have recently gained increasing relevance in fields ranging from ...
As electrochemical measuring instruments, screen-printed electrodes (SPEs) are constructed via a tec...
Abstract Biosensors have been widely used in various fields such as food industry, environmental tes...
From the bench-mark work on microfluidics from the Whitesides’s group in 2007, paper technology has ...
This lecture will consider how the recent emergence of printed bioelectronics can offer new solution...
This review describes the design and fabrication of electrochemical sensors/biosensors based on scre...
<p>Screen printing technology provides a cheap and easy means to fabricate disposable electrochemica...
This review describes recent advances in the fabrication of electrochemical (bio)sensors based on sc...
A screen-printed amperometric enzyme biosensor has been studied for wide variety of fields such as f...
Despite substantial advances in sensing technologies, the development, preparation, and use of self-...
This chapter describes a number of approaches for the fabrication of prototype screen-printed electr...
The commercialization of integrated chemical sensors has been slowed by the difficulty of device enc...
The focus of this report is electroanalysis performed via screen-printed electrodes. All the basic c...
Screen printing or thick film technology is a widely know approach to manufacture disposable and low...
Printed electrochemical biosensors have recently gained increasing relevance in fields ranging from ...
Printed electrochemical biosensors have recently gained increasing relevance in fields ranging from ...
As electrochemical measuring instruments, screen-printed electrodes (SPEs) are constructed via a tec...
Abstract Biosensors have been widely used in various fields such as food industry, environmental tes...
From the bench-mark work on microfluidics from the Whitesides’s group in 2007, paper technology has ...
This lecture will consider how the recent emergence of printed bioelectronics can offer new solution...
This review describes the design and fabrication of electrochemical sensors/biosensors based on scre...
<p>Screen printing technology provides a cheap and easy means to fabricate disposable electrochemica...
This review describes recent advances in the fabrication of electrochemical (bio)sensors based on sc...
A screen-printed amperometric enzyme biosensor has been studied for wide variety of fields such as f...
Despite substantial advances in sensing technologies, the development, preparation, and use of self-...