About

ScienceArt for all

 
 
Slime mold

Slime mold

During this workshop, we introduce the amazing potential of slime mould for collaboration at the intersection of art and science, for research in diverse areas such as mathematical modelling, computation and bio-art. Participants learn how to transform their kitchens and closets into safe, mini-Physarum Biolabs. The workshop invites participants to experiment with different biological media and feeding substrates, reflecting on how they inform the growth and morphology of protozoans and protists.

Microbial worlds

Microbial communities

How much effect have the bacteria living in the body have on our behavior?  During this workshop, the participants will culture bacterias and microorganisms living in their bodies or over the surfaces of their cellphones and personal items. After the overnight culture, we will explore the microscopic world through photographies and extract data to create sound from them.

Sodium Alginate Strings

Knitting with Alginate

Sodium Alginate is a common substance used in culinary practices and recently has made its way into fashion design. The main compound is extracted from different algae from the sea. During the workshop, we analyze the knitting practice as an artistic statement. This workshop also pretends to remove the stigmas of knitting as a conservative feminine practice and include topics of feminism, duality, and sustainability. 

FUNG US
Bacterial Cellulose
Bioplastic
Slime mold
Bioplastics
Slime mold
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Knitting with algae
Protein structure from text

Contact for Details

ibt.laurart@gmail.com

laurart@niuitmo.ru

Instagram: laura.sciart

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Bacterial cellulose

Bacterial cellulose is an abundant polymer created by Acetobacter xylum widely known to brew tea as kombucha. During the course, we will learn how to brew tea and obtain a layer of cellulose to dry and shape different objects or use it as a fabric for clothing. 

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Bio and organic plastics

We provide guidance in waste-to-resource material creation. For example using coffee grounds, sawdust, fruit peels, eggshells, seafood leftover, etc to develop bio-composites. We aim to address and convert the notion of waste into that of a resource.

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Molecular Biology

Create your own glowing bacteria and extract the fluorescent protein with a DIY approach. During the course, you will learn the basics of molecular biology, genetically modified organisms, bacterial transformation, plasmids, and fluorescent proteins.