some reflections on coconuts... and why we should maybe not go for that branding but use existing infrastructure, local knowledge and find the right local actors.
some reflections on coconuts... and why we should maybe not go for that branding but use existing infrastructure, local knowledge and find the right local actors.
thGAP - BAbyss in Moderno!! Transgenic Human Germline Alternatives ProjectMarc Dusseiller Dusjagr
thGAP - Transgenic Human Germline Alternatives Project, presents an evening of input lectures, discussions and a performative workshop on artistic interventions for future scenarios of human genetic and inheritable modifications.
To begin our lecturers, Marc Dusseiller aka "dusjagr" and Rodrigo Martin Iglesias, will give an overview of their transdisciplinary practices, including the history of hackteria, a global network for sharing knowledge to involve artists in hands-on and Do-It-With-Others (DIWO) working with the lifesciences, and reflections on future scenarios from the 8-bit computer games of the 80ies to current real-world endeavous of genetically modifiying the human species.
We will then follow up with discussions and hands-on experiments on working with embryos, ovums, gametes, genetic materials from code to slime, in a creative and playful workshop setup, where all paticipant can collaborate on artistic interventions into the germline of a post-human future.
dusjagr & nano talk on open tools for agriculture research and learningMarc Dusseiller Dusjagr
Open Tools for Research, Learning, Sharing in Agriculture and
Society as a whole.
Remote lecture by Marc Dusseiller and Fernando "nano" Castro on open science hardware for agriculture and edication, held for students of microbiology at UGM, Yogyakarta (remote - online )
UGM 2022: Open Source Biological Art and DIY / DIWO Scientific InstrumentsMarc Dusseiller Dusjagr
Overview of transdisciplinary approach bridging art and science in the global hackteria network.
Concrete examples of building low-cost scientific laboratory equiment.
Various DIY electronics for data logging.
what is art?
This document provides an overview of Dr. Marc R. Dusseiller's background and work investigating transdisciplinary approaches at the intersection of nanotechnology and human genome editing. It discusses his involvement with DIY biology and open source laboratory infrastructure projects since the 1980s aimed at making science more accessible. Specific projects mentioned include Hackteria workshops around the world to share skills for citizen science, as well as investigations into using nanoparticles for human genome editing and setting up a nano lab in a former bar in Slovenia.
Throughout the course, we will lift the fogs of these superficial discussions and through hands-on activities get closer to grasp the world of the small. We will build our own simple DIY (do-it-yourself) optical and electronic instruments to learn more about nanoparticles and nanosensors, how to “see” them, how to “hear” them.
During the 10 years of Hackteria.org we have established a global network and online knowledge base enabling practioners from diverse backgrounds to experiment with life science methodologies, from laboratory biology and genetics to environmental monitoring or fermentation. We have explored methods of collaboration, established in the early interenet culture, such as hackathons or docusprints as offline physical face-to-face production sessions, aswell as online tools for co-writing text-based instructions and lab notes. In this talk, I will give an overview of how our DIWO (Do-It-With-Others) method has lead to highly innovative projects, low-cost laboratory infrastructures, playful and critical prototypes, new workshop methods embracing a radically transdisciplinary approach to bridge the arts and the sciences.
Seoul 2019 - “Hackteria | Open Source Biological Art” - Transdisciplinary Ap...Marc Dusseiller Dusjagr
During the 10 years of Hackteria.org we have established a global network and online knowledge base enabling practioners from diverse backgrounds to experiment with life science methodologies, from laboratory biology and genetics to environmental monitoring or fermentation. We have explored methods of collaboration, established in the early interenet culture, such as hackathons or docusprints as offline physical face-to-face production sessions, aswell as online tools for co-writing text-based instructions and lab notes. In this talk, I will give an overview of how our DIWO (Do-It-With-Others) method has lead to highly innovative projects, low-cost laboratory infrastructures, playful and critical prototypes, new workshop methods embracing a radically transdisciplinary approach to bridge the arts and the sciences.
Presentation of the founding and background of Hackteria | Open Source Biological Art
Examples of modes of temporary collaborations during retreats, labs, camps and more.
WHAT IS/NOT WORKING
*/ Sesi konversasi mengenal kerja bersama
Organized along with Kunci and lifepatch, the event marks Hackteria’s tenth year as a global network that involves the collaboration of scientists, makers, hackers and artists in exploring new possibilities in bioart, open source hardware/software and experiments with biology, art/science based in various locations.
Instead of denoting what has been succeeded and how to pursue it, the conversation will explore possibilities of what could enable working together based on Kunci’s, Hackteria’s and lifepatch’s experience. The question ‘what is/not working’ may imply a ceased productivity, and at the same time, may provide opportunities to discover distinct values based on “non-productive” issues.
An overview of the 10 years history of Hackteria, establishing a global network of transdisciplinary collaborations and bioart workshops. Various examples of DIY science instruments, from rough educational prototypes to advanced open hardware for science.
This document provides an overview of the speaker's experiences with DIY biology and biohacking. It discusses the development of generic laboratory infrastructure to support citizen science, knowledge sharing and open source hardware. It describes various workshops and labs focused on transdisciplinary approaches at the intersection of biology, art, and design. Examples include DIY microscopy, synthetic biology competitions, environmental monitoring, and body hacking. The document emphasizes that biohacking has always existed as people find novel ways to apply science in their daily lives.
Creative PCB Design for Manufacturing using svg2shenzhen dusjagr taipeiMarc Dusseiller Dusjagr
I have explored many ways to make creative PCB designs for simple workshops in electronics and soldering, as part of the Swiss Mechatronic Art Society and in collaboration with other geeks worldwide. Pencil drawing, inkscape, homemade etching and in the end... creating Gerber files for Manufacturing using the amazing tool by Budi Prakosa "svg2shenzhen" to export from Inkscape to KiCad and produce nice gerber files. These slides are an overview of many examples over the years that lead to the most recent tool and PCBs.
This document provides an overview of DIY biology and biotechnology ("biohacking") through examples of workshops, labs, and projects. It discusses the global DIYbio community and efforts to provide open infrastructure like websites, instructions, and DIY lab instruments. Examples include homemade microscopy, PCR thermocyclers from hacked hairdryers, DNA testing, tissue engineering, fermentation, and mobile labs in Indonesia. The goal is democratizing access to tools and knowledge through a transdisciplinary approach involving artists, designers, researchers and citizens.
Overview of dusjagr's background from nanobiotechnology to making cheese and global workshopology. The role of temporary labs for collaborative prototyping, examples from Taiwan, Indonesia and Switzerland. Hackerspaces crossing digital- and biotechnologies.
This document discusses biohacking and open source biology. It begins by explaining that biohacking is about life and democratizing access to tools and knowledge. This includes topics like genetic engineering, DNA testing, and building one's own laboratory. The document then highlights several examples of open source biological art and DIY biology projects. It emphasizes building communities around collaborative development and workshopping. The goal is to make science more open and accessible to all.
- Dr. Marc Dusseiller discusses his experiences with biohacking and DIY (do-it-yourself) biology over the past 10+ years, including workshops held around the world.
- He helped establish hackerspaces and labs that merge digital and biological technologies to democratize science tools and knowledge.
- Examples include microfarming algae, DIY microscopy, DNA testing, and collaborations on projects like synthetic biology and environmental monitoring.
1. The document discusses the speaker's experiences with biohacking and DIY biology, including early work bridging material science and biology, developing workshops for various groups, and collaborating on projects like algae farming and open source biological art.
2. It describes the concept of biohacking as community-driven biology involving topics like genetic engineering, DNA testing, and environmental monitoring. The goal is democratization of tools and knowledge.
3. The speaker advocates for an approach of DIY and DIWO (Do It Yourself/With Others) to create useful or beautiful things through collaborative development and sharing of knowledge via online resources like the Hackteria wiki.
This document discusses DIY (do-it-yourself) microscopy and building microscopes. It mentions the author's experiences constructing microscopes using inexpensive materials and providing workshops to teach these skills globally. Specific projects are noted, such as building stable microscope stages and observing dancing tardigrades. The goal is to demystify science and make microscopy accessible through open source plans and a shared knowledge base.
thGAP - BAbyss in Moderno!! Transgenic Human Germline Alternatives ProjectMarc Dusseiller Dusjagr
thGAP - Transgenic Human Germline Alternatives Project, presents an evening of input lectures, discussions and a performative workshop on artistic interventions for future scenarios of human genetic and inheritable modifications.
To begin our lecturers, Marc Dusseiller aka "dusjagr" and Rodrigo Martin Iglesias, will give an overview of their transdisciplinary practices, including the history of hackteria, a global network for sharing knowledge to involve artists in hands-on and Do-It-With-Others (DIWO) working with the lifesciences, and reflections on future scenarios from the 8-bit computer games of the 80ies to current real-world endeavous of genetically modifiying the human species.
We will then follow up with discussions and hands-on experiments on working with embryos, ovums, gametes, genetic materials from code to slime, in a creative and playful workshop setup, where all paticipant can collaborate on artistic interventions into the germline of a post-human future.
dusjagr & nano talk on open tools for agriculture research and learningMarc Dusseiller Dusjagr
Open Tools for Research, Learning, Sharing in Agriculture and
Society as a whole.
Remote lecture by Marc Dusseiller and Fernando "nano" Castro on open science hardware for agriculture and edication, held for students of microbiology at UGM, Yogyakarta (remote - online )
UGM 2022: Open Source Biological Art and DIY / DIWO Scientific InstrumentsMarc Dusseiller Dusjagr
Overview of transdisciplinary approach bridging art and science in the global hackteria network.
Concrete examples of building low-cost scientific laboratory equiment.
Various DIY electronics for data logging.
what is art?
This document provides an overview of Dr. Marc R. Dusseiller's background and work investigating transdisciplinary approaches at the intersection of nanotechnology and human genome editing. It discusses his involvement with DIY biology and open source laboratory infrastructure projects since the 1980s aimed at making science more accessible. Specific projects mentioned include Hackteria workshops around the world to share skills for citizen science, as well as investigations into using nanoparticles for human genome editing and setting up a nano lab in a former bar in Slovenia.
Throughout the course, we will lift the fogs of these superficial discussions and through hands-on activities get closer to grasp the world of the small. We will build our own simple DIY (do-it-yourself) optical and electronic instruments to learn more about nanoparticles and nanosensors, how to “see” them, how to “hear” them.
During the 10 years of Hackteria.org we have established a global network and online knowledge base enabling practioners from diverse backgrounds to experiment with life science methodologies, from laboratory biology and genetics to environmental monitoring or fermentation. We have explored methods of collaboration, established in the early interenet culture, such as hackathons or docusprints as offline physical face-to-face production sessions, aswell as online tools for co-writing text-based instructions and lab notes. In this talk, I will give an overview of how our DIWO (Do-It-With-Others) method has lead to highly innovative projects, low-cost laboratory infrastructures, playful and critical prototypes, new workshop methods embracing a radically transdisciplinary approach to bridge the arts and the sciences.
Seoul 2019 - “Hackteria | Open Source Biological Art” - Transdisciplinary Ap...Marc Dusseiller Dusjagr
During the 10 years of Hackteria.org we have established a global network and online knowledge base enabling practioners from diverse backgrounds to experiment with life science methodologies, from laboratory biology and genetics to environmental monitoring or fermentation. We have explored methods of collaboration, established in the early interenet culture, such as hackathons or docusprints as offline physical face-to-face production sessions, aswell as online tools for co-writing text-based instructions and lab notes. In this talk, I will give an overview of how our DIWO (Do-It-With-Others) method has lead to highly innovative projects, low-cost laboratory infrastructures, playful and critical prototypes, new workshop methods embracing a radically transdisciplinary approach to bridge the arts and the sciences.
Presentation of the founding and background of Hackteria | Open Source Biological Art
Examples of modes of temporary collaborations during retreats, labs, camps and more.
WHAT IS/NOT WORKING
*/ Sesi konversasi mengenal kerja bersama
Organized along with Kunci and lifepatch, the event marks Hackteria’s tenth year as a global network that involves the collaboration of scientists, makers, hackers and artists in exploring new possibilities in bioart, open source hardware/software and experiments with biology, art/science based in various locations.
Instead of denoting what has been succeeded and how to pursue it, the conversation will explore possibilities of what could enable working together based on Kunci’s, Hackteria’s and lifepatch’s experience. The question ‘what is/not working’ may imply a ceased productivity, and at the same time, may provide opportunities to discover distinct values based on “non-productive” issues.
An overview of the 10 years history of Hackteria, establishing a global network of transdisciplinary collaborations and bioart workshops. Various examples of DIY science instruments, from rough educational prototypes to advanced open hardware for science.
This document provides an overview of the speaker's experiences with DIY biology and biohacking. It discusses the development of generic laboratory infrastructure to support citizen science, knowledge sharing and open source hardware. It describes various workshops and labs focused on transdisciplinary approaches at the intersection of biology, art, and design. Examples include DIY microscopy, synthetic biology competitions, environmental monitoring, and body hacking. The document emphasizes that biohacking has always existed as people find novel ways to apply science in their daily lives.
Creative PCB Design for Manufacturing using svg2shenzhen dusjagr taipeiMarc Dusseiller Dusjagr
I have explored many ways to make creative PCB designs for simple workshops in electronics and soldering, as part of the Swiss Mechatronic Art Society and in collaboration with other geeks worldwide. Pencil drawing, inkscape, homemade etching and in the end... creating Gerber files for Manufacturing using the amazing tool by Budi Prakosa "svg2shenzhen" to export from Inkscape to KiCad and produce nice gerber files. These slides are an overview of many examples over the years that lead to the most recent tool and PCBs.
This document provides an overview of DIY biology and biotechnology ("biohacking") through examples of workshops, labs, and projects. It discusses the global DIYbio community and efforts to provide open infrastructure like websites, instructions, and DIY lab instruments. Examples include homemade microscopy, PCR thermocyclers from hacked hairdryers, DNA testing, tissue engineering, fermentation, and mobile labs in Indonesia. The goal is democratizing access to tools and knowledge through a transdisciplinary approach involving artists, designers, researchers and citizens.
Overview of dusjagr's background from nanobiotechnology to making cheese and global workshopology. The role of temporary labs for collaborative prototyping, examples from Taiwan, Indonesia and Switzerland. Hackerspaces crossing digital- and biotechnologies.
This document discusses biohacking and open source biology. It begins by explaining that biohacking is about life and democratizing access to tools and knowledge. This includes topics like genetic engineering, DNA testing, and building one's own laboratory. The document then highlights several examples of open source biological art and DIY biology projects. It emphasizes building communities around collaborative development and workshopping. The goal is to make science more open and accessible to all.
- Dr. Marc Dusseiller discusses his experiences with biohacking and DIY (do-it-yourself) biology over the past 10+ years, including workshops held around the world.
- He helped establish hackerspaces and labs that merge digital and biological technologies to democratize science tools and knowledge.
- Examples include microfarming algae, DIY microscopy, DNA testing, and collaborations on projects like synthetic biology and environmental monitoring.
1. The document discusses the speaker's experiences with biohacking and DIY biology, including early work bridging material science and biology, developing workshops for various groups, and collaborating on projects like algae farming and open source biological art.
2. It describes the concept of biohacking as community-driven biology involving topics like genetic engineering, DNA testing, and environmental monitoring. The goal is democratization of tools and knowledge.
3. The speaker advocates for an approach of DIY and DIWO (Do It Yourself/With Others) to create useful or beautiful things through collaborative development and sharing of knowledge via online resources like the Hackteria wiki.
This document discusses DIY (do-it-yourself) microscopy and building microscopes. It mentions the author's experiences constructing microscopes using inexpensive materials and providing workshops to teach these skills globally. Specific projects are noted, such as building stable microscope stages and observing dancing tardigrades. The goal is to demystify science and make microscopy accessible through open source plans and a shared knowledge base.
1. Slide 1Mikrosysteme – Photolithographie
GrundlagenGrundlagen
Mikro- und NanosystemeMikro- und Nanosysteme
Mikro- und Nanosysteme in der Umwelt, Biologie und MedizinMikro- und Nanosysteme in der Umwelt, Biologie und Medizin
PhotolithographiePhotolithographie
Dr. Marc R. DusseillerDr. Marc R. Dusseiller
13. Slide 13Mikrosysteme – Photolithographie
MaskenherstellungMaskenherstellung
Masken haben generell eine höhere Qualität/AuflösungMasken haben generell eine höhere Qualität/Auflösung
können mehrmals gebraucht werdenkönnen mehrmals gebraucht werden
Herstellung meist bei SpezialfirmenHerstellung meist bei Spezialfirmen
teuerteuer
HerstellungHerstellung
Glassplatte mit strukturierter ChromschichtGlassplatte mit strukturierter Chromschicht
Elektronenstrahl geschrieben (sequenziell)Elektronenstrahl geschrieben (sequenziell)
Laser geschrieben (sequenziell)Laser geschrieben (sequenziell)
16. Slide 16Mikrosysteme – Photolithographie
PhotolithographiePhotolithographie
Artekakte bei der Beleuchtung/EntwicklungArtekakte bei der Beleuchtung/Entwicklung
Beispiel negativer ResistBeispiel negativer Resist
17. Slide 17Mikrosysteme – Photolithographie
Auflösung der PhotolithographieAuflösung der Photolithographie
Belichtung (minimale Linienbreite, eg. 45 nm)Belichtung (minimale Linienbreite, eg. 45 nm)
Linienbreite hängt ab vonLinienbreite hängt ab von
Wellenlänge des UV LichtsWellenlänge des UV Lichts
(DUV 150 – 300 nm, UV 350 – 500 nm)(DUV 150 – 300 nm, UV 350 – 500 nm)
Dicke des PhotolacksDicke des Photolacks
( )
eResistdick
MaskezurAbstand
eWellenläng
teLinienbreiminimale
2
3
min
=
=
=
=
+≈
z
s
w
zsw
λ
λ
19. Slide 19Mikrosysteme – Photolithographie
Prozessschritte der PhotolithographieProzessschritte der Photolithographie
Nach der Strukturierung des Resists folgt der ProzessschrittNach der Strukturierung des Resists folgt der Prozessschritt
• ÄtzenÄtzen
• DotierenDotieren
• Beschichten (Lift-Off)Beschichten (Lift-Off)
• Elektroformen (LIGA)Elektroformen (LIGA)
• Mikroabformen (PDMS - Soft Lithographie)Mikroabformen (PDMS - Soft Lithographie)
Meist wird nach dem Prozess der Resist wieder entfernt (Strippen)Meist wird nach dem Prozess der Resist wieder entfernt (Strippen)
• Nasschemisches ÄtzenNasschemisches Ätzen
• LösungsmittelLösungsmittel
• PlasmaätzenPlasmaätzen
20. Slide 20Mikrosysteme – Photolithographie
DünnschichtätzenDünnschichtätzen
Beschichtetes SubstratBeschichtetes Substrat
PhotolithographiePhotolithographie
Ätzen der BeschichtungÄtzen der Beschichtung
Selektiv für BeschichtungsmaterialSelektiv für Beschichtungsmaterial
Stopp am Substrat oder über ÄtzzeitStopp am Substrat oder über Ätzzeit
Resist strippenResist strippen
Braun: Photoresist
Grün: Dünnschicht (zb Pt
oder TiO2
)
Grau: Substrat (zb Si)
21. Slide 21Mikrosysteme – Photolithographie
Dotieren - DopingDotieren - Doping
PhotolithographiePhotolithographie
Medium mit Dotierungselementen, DiffusionMedium mit Dotierungselementen, Diffusion
Bor, Gallium (p-type, Gruppe III Elemente)Bor, Gallium (p-type, Gruppe III Elemente)
Phosphor, Arsen (n-type, Gruppe V Elemente)Phosphor, Arsen (n-type, Gruppe V Elemente)
Oder durch Ionen Implantation (bombardment)Oder durch Ionen Implantation (bombardment)
Resist strippenResist strippen
22. Slide 22Mikrosysteme – Photolithographie
Lift-OffLift-Off
Spezielle Photoresist (Flanken)Spezielle Photoresist (Flanken)
zB. Image Reversal ResistszB. Image Reversal Resists
Beschichtung, stark gerichtetBeschichtung, stark gerichtet
Lift-Off durch Auflösung des ResistsLift-Off durch Auflösung des Resists
Wenn Beschichtung durchgehend nicht möglichWenn Beschichtung durchgehend nicht möglich