Publication detail
The Increase of Electrode Surface of Thick-film Electrochemical Sensors by Unconventional Method
ADÁMEK, M. ŠTEKOVIČ, M. PULEC, J. BURŠÍK, M.
Original Title
The Increase of Electrode Surface of Thick-film Electrochemical Sensors by Unconventional Method
English Title
The Increase of Electrode Surface of Thick-film Electrochemical Sensors by Unconventional Method
Type
conference paper
Language
en
Original Abstract
Miniature electrochemical sensors can be produced by thick-film technology. The optimal properties of thick-film electrode system, the production technology optimization of thick-film sensors and the adjustment of optimal technological properties are main problems of sensor design. An area of working electrode and an electrode topology design is the important parts of design a optimization of electrode system. The rules for optimization of electrode systems in classical electrochemistry exist. The design of standard thick-film electrode construction is limited (2-D construction, substrate dimensions, resolution, paste parameters...). Therefore rules for classical electrode systems cannot be used fully in this case and larger electrode area can be making by 3-D structure only. One of resolutions is unconventional method. The increase of electrode surface by unconventional method – ball and wire bonding is discussed in this paper.
English abstract
Miniature electrochemical sensors can be produced by thick-film technology. The optimal properties of thick-film electrode system, the production technology optimization of thick-film sensors and the adjustment of optimal technological properties are main problems of sensor design. An area of working electrode and an electrode topology design is the important parts of design a optimization of electrode system. The rules for optimization of electrode systems in classical electrochemistry exist. The design of standard thick-film electrode construction is limited (2-D construction, substrate dimensions, resolution, paste parameters...). Therefore rules for classical electrode systems cannot be used fully in this case and larger electrode area can be making by 3-D structure only. One of resolutions is unconventional method. The increase of electrode surface by unconventional method – ball and wire bonding is discussed in this paper.
Keywords
electrochemical sensors, working electrode, thick-film technology, bonding
RIV year
2011
Released
18.05.2011
Publisher
Curran Associates, Inc., 57 Morehouse Lane, Red Hook, NY 12571 USA
Location
NY USA
ISBN
978-1-4577-2112-0
Book
2011 34th International Spring Seminar on Electronics Technology (ISSE)
Edition
1
Edition number
1
Pages from
616
Pages to
621
Pages count
6
URL
Documents
BibTex
@inproceedings{BUT74983,
author="Martin {Adámek} and Michal {Štekovič} and Jiří {Pulec} and Martin {Buršík}",
title="The Increase of Electrode Surface of Thick-film Electrochemical Sensors by Unconventional Method",
annote="Miniature electrochemical sensors can be produced by thick-film technology. The optimal properties of thick-film electrode system, the production technology optimization of thick-film sensors and the adjustment of optimal technological properties are main problems of sensor design. An area of working electrode and an electrode topology design is the important parts of design a optimization of electrode system. The rules for optimization of electrode systems in classical electrochemistry exist. The design of standard thick-film electrode construction is limited (2-D construction, substrate dimensions, resolution, paste parameters...). Therefore rules for classical electrode systems cannot be used fully in this case and larger electrode area can be making by 3-D structure only. One of resolutions is unconventional method. The increase of electrode surface by unconventional method – ball and wire bonding is discussed in this paper.",
address="Curran Associates, Inc., 57 Morehouse Lane, Red Hook, NY 12571 USA",
booktitle="2011 34th International Spring Seminar on Electronics Technology (ISSE)",
chapter="74983",
edition="1",
howpublished="electronic, physical medium",
institution="Curran Associates, Inc., 57 Morehouse Lane, Red Hook, NY 12571 USA",
number="1",
year="2011",
month="may",
pages="616--621",
publisher="Curran Associates, Inc., 57 Morehouse Lane, Red Hook, NY 12571 USA",
type="conference paper"
}