CoMakingSpace Wiki - User Contributions [en]

User:Yunus

2018-08-02T10:45:53Z

Yunus:

=== Hi, I'm Yunus Noah Oberst ===
I'm a 16 year old Inventor / Developer / Researcher currently based in Heidelberg, Germany. I perform research at the DKFZ and develop most of my projects at the DAI makerspace.

*[http://www.yunimo.one Personal website]
*[https://www.linkedin.com/in/yunusoberst LinkedIn]
*[https://www.instagram.com/yunus_oberst/ Instagram]

=== Recent Makerspace Projects ===
* [[Microfluidics]]
* ML Pollen Sensor
* (...)

User:Yunus

2018-08-02T10:45:17Z

Yunus:

=== Hi, I'm Yunus Noah Oberst ===
I'm a 16 year old Inventor / Developer / Researcher currently based in Heidelberg, Germany. I perform research at the DKFZ and develop most of my projects at the DAI makerspace.

*[https://www.yunimo.one Personal website]
*[https://www.linkedin.com/in/yunusoberst LinkedIn]
*[https://www.instagram.com/yunus_oberst/ Instagram]

=== Recent Makerspace Projects ===
* [[Microfluidics]]
* ML Pollen Sensor
* (...)

Project:Microfluidics

2018-08-01T22:15:32Z

Yunus:

{{ProjectInfoBox
|project title= DIY Microfluidics devices
|image= Microfluidics thumbnail.jpg
|date = Q1 2019
|status= in active development
|initiator= [http://www.biotop-heidelberg.de BIOTOP Community Lab e.V.]
|team= Patrick & [[User:Yunus|Yunus]]
|materials=Acrylic Glas, 3M Double Sided Tape
|tools= Laser Cutter, Biotop Lab
|software= Affinity Designer, VisiCut
|cost=
}}
Microfluidics deals with the behaviour, precise control and manipulation of fluids that are geometrically constrained to a small, typically sub-millimetre, scale at which capillary penetration governs mass transport. - Our goal is to develop custom DIY microfluidics chips (currently as a proof of concept), and perform lab-on-a-chip like experiments.

== Development of our own microfluidics devices ==

=== Concept ===

== Version History ==

[[File: Microfluidics-progress.png|border|300px]]

==== V 0 and V 1 ====
Version Zero was our first shot at microfluidics. We wanted to perform a simple proof-of-concept: Get liquid flowing from an input hole through a spiral to an output hole.
The chip was made from three laser-cut layers: A top acrylic glass plate with the input and output wholes, a middle layer made out of double sided 3M tape that included the actual channels, and finally a bottom layer.

With Version One we improved our channel smoothness and overall build quality.

-> Images -> Laser Settings

==== V 2 - V 4 ====

==== V B02 ====

==== V B03 ====

==== V B04 ====
V B04-A
V B04-B

==== V C01 ====

== Assets ==

Project:Microfluidics

2018-08-01T22:15:01Z

Yunus:

{{ProjectInfoBox
|project title= DIY Microfluidics devices
|image= Microfluidics thumbnail.jpg
|date = Q1 2019
|status= in active development
|initiator= [http://www.biotop-heidelberg.de BIOTOP Community Lab e.V.]
|team= Patrick & [[User:Yunus|Yunus]]
|materials=Acrylic Glas, 3M Double Sided Tape
|tools= Laser Cutter, Biotop Lab
|software= Affinity Designer, VisiCut
|cost=
}}
Microfluidics deals with the behaviour, precise control and manipulation of fluids that are geometrically constrained to a small, typically sub-millimetre, scale at which capillary penetration governs mass transport. - Our goal is to develop custom DIY microfluidics chips (currently as a proof of concept), and perform lab-on-a-chip like experiments.

== Development of our own microfluidics devices ==

=== Concept ===

=== Version History ===

[[File: Microfluidics-progress.png|border|300px]]

==== V 0 and V 1 ====
Version Zero was our first shot at microfluidics. We wanted to perform a simple proof-of-concept: Get liquid flowing from an input hole through a spiral to an output hole.
The chip was made from three laser-cut layers: A top acrylic glass plate with the input and output wholes, a middle layer made out of double sided 3M tape that included the actual channels, and finally a bottom layer.

With Version One we improved our channel smoothness and overall build quality.

-> Images -> Laser Settings

==== V 2 - V 4 ====

==== V B02 ====

==== V B03 ====

==== V B04 ====
V B04-A
V B04-B

==== V C01 ====

== Assets ==

File:Microfluidics-progress.png

2018-08-01T22:13:03Z

Yunus:

Project:Microfluidics

2018-08-01T22:09:20Z

Yunus:

{{ProjectInfoBox
|project title= DIY Microfluidics devices
|image= Microfluidics thumbnail.jpg
|date = Q1 2019
|status= in active development
|initiator= [http://www.biotop-heidelberg.de BIOTOP Community Lab e.V.]
|team= Patrick & [[User:Yunus|Yunus]]
|materials=Acrylic Glas, 3M Double Sided Tape
|tools= Laser Cutter, Biotop Lab
|software= Affinity Designer, VisiCut
|cost=
}}
Microfluidics deals with the behaviour, precise control and manipulation of fluids that are geometrically constrained to a small, typically sub-millimetre, scale at which capillary penetration governs mass transport. - Our goal is to develop custom DIY microfluidics chips (currently as a proof of concept), and perform lab-on-a-chip like experiments.

== Development of our own microfluidics devices ==

=== Concept ===

=== Version History ===

==== V 0 and V 1 ====
Version Zero was our first shot at microfluidics. We wanted to perform a simple proof-of-concept: Get liquid flowing from an input hole through a spiral to an output hole.
The chip was made from three laser-cut layers: A top acrylic glass plate with the input and output wholes, a middle layer made out of double sided 3M tape that included the actual channels, and finally a bottom layer.

With Version One we improved our channel smoothness and overall build quality.

-> Images -> Laser Settings

==== V 2 - V 4 ====

==== V B02 ====

==== V B03 ====

==== V B04 ====
V B04-A
V B04-B

==== V C01 ====

== Assets ==

Project:Microfluidics

2018-08-01T22:07:14Z

Yunus:

{{ProjectInfoBox
|project title= DIY Microfluidics devices
|image= Microfluidics thumbnail.jpg
|date = Q1 2019
|status= in active development
|initiator= [http://www.biotop-heidelberg.de BIOTOP Community Lab e.V.]
|team= Patrick & [[User:Yunus|Yunus]]
|materials=Acrylic Glas, 3M Double Sided Tape
|tools= Laser Cutter, Biotop Lab
|software= Affinity Designer, VisiCut
|cost=
}}

Microfluidics deals with the behaviour, precise control and manipulation of fluids that are geometrically constrained to a small, typically sub-millimetre, scale at which capillary penetration governs mass transport. - Our goal is to develop custom DIY microfluidics chips (currently as a proof of concept), and perform lab-on-a-chip like experiments.

== Development of our own microfluidics devices ==

=== Concept ===

=== Version History ===

==== V 0 and V 1 ====
Version Zero was our first shot at microfluidics. We wanted to perform a simple proof-of-concept: Get liquid flowing from an input hole through a spiral to an output hole.
The chip was made from three laser cut layers: A top acrylic glass plate with the input and output wholes, a middle layer made out of double sided 3M tape that included the actual channels, and finally a bottom layer.

-> Images -> Laser Settings

==== V 2 - V 4 ====

==== V B02 ====

==== V B03 ====

==== V B04 ====
V B04-A
V B04-B

==== V C01 ====

== Assets ==

Project:Microfluidics

2018-08-01T22:05:48Z

Yunus:

{{ProjectInfoBox
|project title= DIY Microfluidics devices
|image= Microfluidics thumbnail.jpg
|date = Q1 2019
|status= in active development
|initiator= [http://www.biotop-heidelberg.de BIOTOP Community Lab e.V.]
|team= Patrick & [[User:Yunus|Yunus]]
|materials=Acrylic Glas, 3M Double Sided Tape
|tools= Laser Cutter, Biotop Lab
|software= Affinity Designer, VisiCut
|cost=
}}
Microfluidics deals with the behaviour, precise control and manipulation of fluids that are geometrically constrained to a small, typically sub-millimetre, scale at which capillary penetration governs mass transport. - Our goal is to develop custom DIY microfluidics chips (currently as a proof of concept), and perform lab-on-a-chip like experiments.

== Development of our own microfluidics devices ==

=== Idea ===

=== Versions ===

==== V 0 ====
Version Zero was our first shot at microfluidics. We wanted to perform a simple proof-of-concept: Get liquid flowing from an input hole through a spiral to an output hole.
The chip was made from three laser cut layers: A top acrylic glass plate with the input and output wholes, a middle layer made out of double sided 3M tape that included the actual channels, and finally a bottom layer.

-> Images -> Laser Settings

==== V 1 ====

==== V 2 ====

==== V 3 ====

==== V 4 ====

==== V B02 ====

==== V B03 ====

==== V B04 ====
V B04-A
V B04-B

==== V C01 ====

== Assets ==

Project:Microfluidics

2018-08-01T22:04:43Z

Yunus: /* Versions */

{{ProjectInfoBox
|project title= DIY Microfluidics devices
|image= Microfluidics thumbnail.jpg
|date = Q1 2019
|status= in active development
|initiator= [http://www.biotop-heidelberg.de BIOTOP Community Lab e.V.]
|team= Patrick & [[User:Yunus|Yunus]]
|materials=Acrylic Glas, 3M Double Sided Tape
|tools= Laser Cutter, Biotop Lab
|software= Affinity Designer, VisiCut
|cost=
}}

== What is microfluidics? ==
Microfluidics deals with the behaviour, precise control and manipulation of fluids that are geometrically constrained to a small, typically sub-millimetre, scale at which capillary penetration governs mass transport. - Our goal is to develop custom DIY microfluidics chips (currently as a proof of concept), and perform lab-on-a-chip like experiments.

== Development of our own microfluidics devices ==

=== Idea ===

=== Versions ===

==== V 0 ====
Version Zero was our first shot at microfluidics. We wanted to perform a simple proof-of-concept: Get liquid flowing from an input hole through a spiral to an output hole.
The chip was made from three laser cut layers: A top acrylic glass plate with the input and output wholes, a middle layer made out of double sided 3M tape that included the actual channels, and finally a bottom layer.

-> Images -> Laser Settings

==== V 1 ====

==== V 2 ====

==== V 3 ====

==== V 4 ====

==== V B02 ====

==== V B03 ====

==== V B04 ====
V B04-A
V B04-B

==== V C01 ====

== Assets ==

Project:Microfluidics

2018-08-01T21:56:55Z

Yunus:

File:Microfluidics thumbnail.jpg

2018-08-01T21:51:47Z

Project:Microfluidics

2018-08-01T21:46:30Z

Yunus:

{{ProjectInfoBox
|project title= DIY Microfluidics devices
|image= [[File:Microfluidics_thumbnail.jpeg]]
|date = Q1 2019
|status= in active development
|initiator= [http://www.biotop-heidelberg.de BIOTOP Community Lab e.V.]
|team= Patrick & [[User:Yunus|Yunus]]
|materials=Acrylic Glas, 3M Double Sided Tape
|tools= Laser Cutter, Biotop Lab
|software= Affinity Designer, VisiCut
|cost=
}}

== What is microfluidics? ==
Microfluidics deals with the behaviour, precise control and manipulation of fluids that are geometrically constrained to a small, typically sub-millimetre, scale at which capillary penetration governs mass transport. - Our goal is to develop custom DIY microfluidics chips (currently as a proof of concept), and perform lab-on-a-chip like experiments.

== Development of our own microfluidics devices ==

=== Idea ===

=== Versions ===

== Assets ==

User:Yunus

2018-08-01T21:41:01Z

Yunus:

=== Hi, I'm Yunus Noah Oberst ===
I'm a 16 year old Inventor / Developer / Researcher currently based in Heidelberg, Germany. I perform research at the DKFZ and develop most of my projects at the DAI makerspace.

*[https://www.yuimo.one Personal website]
*[https://www.linkedin.com/in/yunusoberst LinkedIn]
*[https://www.instagram.com/yunus_oberst/ Instagram]

=== Recent Makerspace Projects ===
* [[Microfluidics]]
* ML Pollen Sensor
* (...)

User:Yunus

2018-08-01T21:37:10Z

Yunus: Created page with "=== Hi, I'm Yunus Noah Oberst === I'm a 16 year old Inventor / Developer / Researcher currently based in Heidelberg, Germany. I perform research at the DKFZ and develop most o..."

=== Hi, I'm Yunus Noah Oberst ===
I'm a 16 year old Inventor / Developer / Researcher currently based in Heidelberg, Germany. I perform research at the DKFZ and develop most of my projects at the DAI makerspace.

*[https://www.yuimo.one Personal website]
*[https://www.linkedin.com/in/yunusoberst LinkedIn]
*[https://www.instagram.com/yunus_oberst/ Instagram]

Project:Microfluidics

2018-08-01T21:30:59Z

Yunus: Created page with " {{ProjectInfoBox |project title= DIY Microfluidics devices |image= |date = Q1 2019 |status= in active development |initiator= [http://www.biotop-heidelberg.de BIOTOP Commun..."

{{ProjectInfoBox
|project title= DIY Microfluidics devices
|image=
|date = Q1 2019
|status= in active development
|initiator= [http://www.biotop-heidelberg.de BIOTOP Community Lab e.V.]
|team= Patrick & [[User:Yunus|Yunus]]
|materials=Acrylic Glas, 3M Double Sided Tape
|tools= Laser Cutter, Biotop Lab
|software= Affinity Designer, VisiCut
|cost=
}}

== What is microfluidics? ==
Microfluidics deals with the behaviour, precise control and manipulation of fluids that are geometrically constrained to a small, typically sub-millimeter, scale at which capillary penetration governs mass transport. - Our goal is to develop custom DIY microfluidics chips (currently as a proof of concept), and perform lab-onn-a-chip like experiments.

== Development of our own microfluidics devices ==

=== Idea ===

=== Versions ===

== Assets ==