Publication detail

On Properties of Basic Building Blocks for Printable Polymer and Nanometal Logic

RŮŽIČKA, R. ŠIMEK, V.

Original Title

On Properties of Basic Building Blocks for Printable Polymer and Nanometal Logic

English Title

On Properties of Basic Building Blocks for Printable Polymer and Nanometal Logic

Type

conference paper

Language

en

Original Abstract

Polymer or organic electronics becomes a focus of intense research and development in recent years. Thin-film field-effect transistor based on organic materials is very simple structure, thus it can be easily manufactured using inkjet printing technique. Today, first implementations of logic gates and some simple logic circuits using inkjet printing of organic materials are proposed. Parameters of these circuits seem to be promising, but it needs some more work to achieve parameters competitive to ordinary electronics. In this paper, some results of simulations with known and new implementations of basic logic gates based on printed TFTs will be shown. A model of organic printed transistor developed in accordance to published and known parameters will be presented. The model will be used to simulate basic digital circuit building blocks i. e. logic gates. Parameters of these gates will be investigated from a digital circuit designer's point of view.

English abstract

Polymer or organic electronics becomes a focus of intense research and development in recent years. Thin-film field-effect transistor based on organic materials is very simple structure, thus it can be easily manufactured using inkjet printing technique. Today, first implementations of logic gates and some simple logic circuits using inkjet printing of organic materials are proposed. Parameters of these circuits seem to be promising, but it needs some more work to achieve parameters competitive to ordinary electronics. In this paper, some results of simulations with known and new implementations of basic logic gates based on printed TFTs will be shown. A model of organic printed transistor developed in accordance to published and known parameters will be presented. The model will be used to simulate basic digital circuit building blocks i. e. logic gates. Parameters of these gates will be investigated from a digital circuit designer's point of view.

Keywords

inkjet printed electronics, organic electronics, inkjet printed TFT model

RIV year

2011

Released

22.06.2011

Publisher

Brno University of Technology

Location

Brno

ISBN

978-80-214-4303-7

Book

Proc. of IMAPS CS International Conference on Electronic Devices and Systems

Edition

NEUVEDEN

Edition number

NEUVEDEN

Pages from

258

Pages to

263

Pages count

6

BibTex


@inproceedings{BUT76408,
  author="Richard {Růžička} and Václav {Šimek}",
  title="On Properties of Basic Building Blocks for Printable Polymer and Nanometal Logic",
  annote="Polymer or organic electronics becomes a focus of intense research and
development in recent years. Thin-film field-effect transistor based on organic
materials is very simple structure, thus it can be easily manufactured using
inkjet printing technique. Today, first implementations of logic gates and some
simple logic circuits using inkjet printing of organic materials are proposed.
Parameters of these circuits seem to be promising, but it needs some more work to
achieve parameters competitive to ordinary electronics. In this paper, some
results of simulations with known and new implementations of basic logic gates
based on printed TFTs will be shown. A model of organic printed transistor
developed in accordance to published and known parameters will be presented. The
model will be used to simulate basic digital circuit building blocks i. e. logic
gates. Parameters of these gates will be investigated from a digital circuit
designer's point of view.",
  address="Brno University of Technology",
  booktitle="Proc. of IMAPS CS International Conference on Electronic Devices and Systems",
  chapter="76408",
  edition="NEUVEDEN",
  howpublished="print",
  institution="Brno University of Technology",
  year="2011",
  month="june",
  pages="258--263",
  publisher="Brno University of Technology",
  type="conference paper"
}