Please use this identifier to cite or link to this item:
Type of publication: conference paper
Type of publication (PDB): Tezės kituose recenzuojamuose leidiniuose / Theses in other peer-reviewed publications (T1e)
Field of Science: Biochemija / Biochemistry (N004)
Author(s): Drungilaitė, Kotryna;Drevinskas, Tomas;Telksnys, Adolfas Laimutis;Maruška, Audrius;Gorbatšova, Jelena;Kaljurand, Mihkel
Title: The design of micro colorimetry system for bio-investigations
Is part of: The vital nature sign [electronic resource] : 12th international scientific conference, May 17-18, 2018, Kaunas, Lithuania : abstract book / editors Nicola Tiso, Vilma Kaškonienė. Kaunas : Vytautas Magnus university, 2018, [no. 12]
Extent: p. 35-35
Date: 2018
Note: Online ISSN: 2335-8718
Keywords: Bio-investigations;Miniaturized instruments;Colorimetric methods;3D printer
Abstract: Modern day sciences require modern instruments. Expanding scope of investigations utilizes sophisticated methods and techniques. Main trend of modern day analytical instrumentation is autonomization, what is impossible without miniaturized instruments. In this work we propose a concept of a micro colorimetry system that will be capable of performing measurements in few micro-liter volume droplets. The system utilizes wireless operation and is controlled using a smartphone, or a laptop. High resolution, precision visible light sensor ensures the application of different colorimetric methods. In the first design stage sensor saturation issues, the frame of the system, and the controlling aspects will be discussed. By shaping the initial microlorimeter design, the 3D printer herewith the FreeCad program were used to model and print certain parts, such as a case, which would cover and protect the sensor from the exterior light rays to measure only the desired light radius. A smartphone’s flashlight was used for the light source to determine the maximum sensor saturation point. Changing the distance between the sensor and the light source, the sensor code variation was observed, the maximum saturation point was determined at 34196 and the most suitable distance between the objects was found. During the presentation design and measurement issues will be discussed
Affiliation(s): Biochemijos katedra
Gamtos mokslų fakultetas
Instrumentinės analizės APC
Matematikos ir informatikos institutas
Sistemų analizės katedra
Vytauto Didžiojo universitetas
Appears in Collections:Universiteto mokslo publikacijos / University Research Publications

Files in This Item:
marc.xml8.08 kBXMLView/Open

MARC21 XML metadata

Show full item record
Export via OAI-PMH Interface in XML Formats
Export to Other Non-XML Formats

CORE Recommender

Page view(s)

checked on Jun 6, 2021


checked on Jun 6, 2021

Google ScholarTM


Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.