Configurable on-Chip Gel Electrophoresis in Inkjet 3D Printed Microfluidic Modules

Walczak, Rafał; Adamski, Krzysztof; Kubicki, Wojciech

doi:10.3390/proceedings1040520

Cited by 6 publications

(6 citation statements)

References 4 publications

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“…Differences between stimulated and non-stimulated seed grow is show on Figure 5. In this experiment upot working as a part of modular microfluidic [6] system with venturii microflow meter[] as a flow sensor.…”

Section: Resultsmentioning

confidence: 99%

“…We present a fully 3D printed microfluidic pot with integrated cantilever-type force sensors with optical method of root and stalk growing force measurements. I3dp is precision 3D printing technic enables to fabricate microfluidic systems [4] especially DNA chips [5], modular [6] and integrated [7] fluidic systems. In spite of 3D printing application, in comparison to [3] our solution is modular one with the second cantilever for stalk grow measurement as well as a microfluidic channel for continuous supplying of a growing medium (Figure 1).…”

Section: Introductionmentioning

confidence: 99%

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Inkjet 3D Printed Micropot with Integrated Cantilever-Like Force Sensor for Growing Plant Biological Potential Measurement

2019

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Inkjet 3D Printed Micropot with Integrated Cantilever-Like Force Sensor for Growing Plant Biological Potential Measurement

2019

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“…The flow meters have fluidic connectors designed for connection with fluidic tube or modular microfluidics system. An example of printed flow sensor connected with modular microfluidic device based on Lego-bricks, described in [11], is shown on Figure 3.…”

Section: Measurement Methodsmentioning

confidence: 99%

“…In our previous works it was also proved that inkjet 3D printing technique can be applied for fabrication of lab-on-achip for DNA separation [8], active microfluidics structure as microvalve [9] and integrated siliconglass-polymer systems [10]. Inkjet 3D printing also enables fast and reliable fabrication of modular microfluidics system [11].…”

Section: Introductionmentioning

confidence: 99%

3D Printed Flowmeter Based on Venturi Effect with Integrated Pressure Sensors

2018

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In this paper we present a 3D printed flow meter based on venturri effect. Dimensions of the microchannels are 800 µm for wider and 400 µm for thinker channel. Application of different type of sensors was investigated: differential, absolute and digital barometer. Results of measurement of differential pressure and calculation of liquid flow are shown. Presented microfluidics device can be also easy adapted for modular systems. Presented flow meter is the first integration of commercial available sensors and 3D printed microfluidics structure in a single chip.

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“…Для этого применяются методы, обеспечивающие формирование конфигурируемых устройств хемометрики и биотехнологии, обеспечивающие реакционную инженерию сложных систем с интегрированными элементами подвода и вывода проб (Comina et al, 2015;Gong et al, 2018); в том числе, методы пиропринтинга и вакуумного принтинга (Okkuno et al, 2002;Coppola et al, 2016). Технологии химического детектирования на подобных условиях предусматривают: Vis-и УФ-спектроскопию (Prince et al, 2015), спектрофлуориметрию , фотометрию (Comina, 2017), бумажную сепарацию , электрофорез, включая гель-электрофорез (Adamski et al, 2016;Walczak et al, 2017Walczak et al, , 2018, а также прочие электрохимические методы, включая анализ с использованием квантовых точек . Рис.…”

Section: методыunclassified

“MALDI-FLIP-on-a-chip” and “MALDI-FRAP-on-a-flap”: Novel Techniques for Soil Microbiology and Environmental Biogeochemistry. II – Polymer Chip Prototyping (Invited Paper)

2018

Biogeosystem Technique

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In the second part of the article cycle «"MALDI-FLIP-on-a-chip" and "MALDI-FRAP-on-aflap": Novel Techniques for Soil Microbiology and Environmental Biogeochemistry» the polymer chip prototyping techniques are described. In particular, the compatibility problems are discussed. The problem of the biocompatibility of polymer chip surface is eliminated using GIM-surfaced chip exposition in the high-humidity experimental media, which may be interpreted as a model of soils. The problem of compatibilities of fluorescence techniques and polymer chips is resolved (as a part of the general chip optics problem) using microscopic investigations of polymer chip transparency in some different textural variances and microfluorimetric measurements of fluorescent dyes in the chip geometry. The problem of the soil chip prototyping is solved using 3D-printing based on some biocompatible and, so possible, biodegradable polymers. The basic complexity of experimental data is provided in the tables placed in the general article text. Is it possible to create multiparametric analytical technique for synchronous biocompatible soil microbiome analysis and monitoring? It is a general question for the real time environmental control. We can say "Yes", but only if we have a minimal prerequisite case, which we have a good polymer, real "real time" analyzer, biocompatible and biodegradable coatings etc. In other cases the general problem of soil chip design is not a problem of engineering, but it is a problem of soil-chip interface chemical physics and physical chemistry. Such problem may be interpreted only as a principal physical, but not as a technical problem. This part of our article cycle is very simple and sensible, because such problems are not very strong and complexible, consequently, we can take only illustration of principle, but not a full verification and validation of fine and thin mechanisms of soil microbiome interactions with adhesive chip etc. Cureent opinions in soil biology are good compartible with our results, therefor we must not take full theoretical considerations in frames of the current concept paradigm in soil biology. De facto, it is a brief methodical and technical note before the closing of our projects in Russian Federation. It is not a normal research article, because all normal articles may be writed only in normal material and technical conditions.

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Configurable on-Chip Gel Electrophoresis in Inkjet 3D Printed Microfluidic Modules

Cited by 6 publications

References 4 publications

Inkjet 3D Printed Micropot with Integrated Cantilever-Like Force Sensor for Growing Plant Biological Potential Measurement

Inkjet 3D Printed Micropot with Integrated Cantilever-Like Force Sensor for Growing Plant Biological Potential Measurement

3D Printed Flowmeter Based on Venturi Effect with Integrated Pressure Sensors

“MALDI-FLIP-on-a-chip” and “MALDI-FRAP-on-a-flap”: Novel Techniques for Soil Microbiology and Environmental Biogeochemistry. II – Polymer Chip Prototyping (Invited Paper)

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