Biofabricated Leather

Biofabricated leather is created from small samples of living animal skin cells, multiplied in bioreactors and 'printed' into sheets, which can be tanned and used like normal leather, grown to larger sizes, or even bioengineered for new properties

Biotechnologists have been improving processes for growing living tissues in vitro (outside the body, in the lab) for many years. Several organisations are now developing ‘biofabricated’ (or ‘bioprinted’) products using these techniques, such as in vitro liver and skin culturing for medical procedures, slaughter free meat and, in this case, leather.

The claimed benefit over existing ‘fake’ leathers is that it is almost the same tissue and structure as real animal leather so has similar properties and performance. The claimed benefits over both fake leather which is usually made of petroleum products, and animal leather, are ethical considerations and sustainability. A study found that cultured meat could use 99% less land, 96% less water, 45% less energy and with 96% less greenhouse gas production than conventional animal farming, for example.

Startup Modern Meadow is pioneering with it’s first product ‘Zoa‘ (swatches pictured above and T-Shirt using it pictured below) a ‘bioleather’ that is “designed and grown from animal free collagen, which can be combined with other natural or manmade materials offering new aesthetic and performance properties.” Unlike animal grown leather, the material is “able to be any density,” “hold to any mold” and “take on any texture”, with genetic engineering potentially widening the range of properties even further. See founder Andras Forgacs’ TEDx talk.

zoa.is (Modern Meadow)

Other pioneers include VitroLabs (incubated at Future Tech Lab; “a disruptive movement of innovators bridging together fashion and science to create a sustainable future.”) which uses stem-cell technology and tissue engineering to create ethical leather from cow, ostrich and crocodile cells.

Vitro Labs Inc.

Note that the technology is in its infancy, so large ranges of refined products and production-scale supply chains are not yet established.

Uses

  • Fashion: the Zoa-leather detailed T-shirt pictured above, and exhibited at MOMA is the only finished product we have found, and not for sale as far as we know.

Potential Uses

  • Anywhere that conventional leather is used; clothing, accessories, furniture etc.
  • If properties and sizes are developed beyond those available in conventional leather then new use cases may arise; building facades / roofs? tents? aeroplane ‘skin’? bedding? lorry tarpaulins? curtains? room dividers? geo-textiles?…
  • Any other ideas or exploratory projects you are aware of please do comment below.

Process

  1. Source cells: currently harmless ‘punch biopsies’ (cylindrical cores of skin tissue removed with a small circular blade) are taken from living donor animals such as livestock or exotic animals.
  2. Isolate cells, and potentially make beneficial genetic modifications.
  3. Grow the millions of extracted cells into many billions in a bioreactor or other growth apparatus.
  4. Centrifuge (spin quickly) the products to remove the growth medium and clump the cells together.
  5. Bioassembly: put the cell clumps together into layers and allow them to fuse. A number of techniques could potentially be used, including ‘3D bioprinting’.
  6. Mature the fused cells in a bioreactor for several weeks to stimulate collagen production.
  7. Stop food supply to the cells, causing the ‘skin’ tissue to turn to hide.
  8. As the hides do not have hair or tough outer skin, a simpler than usual tanning process is used that decreases the amount of chemicals needed.

Clinoptilolite

Clinoptilolite is a white to reddish natural crystal of zeolite, made of silica and alumina tetrahedra, often occuring in volcanic ash rocks.

Clinoptilolite is a white to reddish natural crystal of  zeolite (microporous aluminosilicate mineral) made of silica and alumina tetrahedra, often occuring in volcanic ash rocks.

Uses

  • Fertiliser
  • Deodorizer, in the form of pebble-sized chunks contained in a mesh bag
  • Industry and academia focuses on its ion exchange properties having a strong exchange affinity for ammonium (NH4+), e.g. in enzyme-based urea sensors

Potential Uses

  • Please suggest Research, Exploratory/student projects and ideas in comments below

Processes

  • [Overview; need not be detailed.]

More Information

  • Please suggest links to the most relevant projects, organisations, research, suppliers etc. in comments below

Shellac from Insects

Shellac is a resin secreted by the female lac bug, on trees in the forests of India and Thailand. It is processed and sold as dry flakes and dissolved in ethanol to make liquid shellac, which is used as a brush-on colorant, food glaze and wood finish.

Shellac is contrary to popular belief not made out of a bugs shell. It is a resin uses by the female lac bug, Kerria lacca to create a cocoon. Therefor it is a  renewable recourse. It is harvested from the three branches and crushed in preparation for further manufacturing processes.

Uses

  • Shellac is a bioadhesive polymer that can be moulded under heat and pressure and shows durability and hardness. This is why Shellac is used as an ingredient in furniture polishes and primers.
  • It is also used to coat pills and candy.
  • Traditional fabrics in Thailand and India where also dyed with shellac as it varies in color from light yellow over brown to red.

Potential Uses

  • It can be used to stiffen materials like felt. Maybe there is another practical use for this property.
  • Could Shellac be 3D Printed?

Processes

  • Insect lac comes the resin excreted by insects on branches.
    Image of shellac bug, courtesy of www.industyofallnations.com

    The branches are harvested and crushed to obtain shellac. Crushing can be done using machines or good old pounding between stones. The resulting particulates are then washed in a soda-ash solution, dried and then heat-treated to extract a purer lac. For more comprehensive information on the process see this source.

More Information

  • https://en.wikipedia.org/wiki/Shellac#Uses
  • https://www.naturalhandyman.com/iip/infpai/shellac.html
  • http://antiquerestorers.com/Articles/jeff/shellac.htm

Amadou: mushroom ‘felt’

Amadou is a spongy material from Fomes fomentarius fungi, historically used as fire tinder and for forming a felt-like fabric. It absorbs water and is still used in fly fishing for drying out flies.

Amadou is a spongy material derived from Fomes fomentarius fungi (Europe, Asia, Africa and North America), used by ancient people as fire tinder, and for forming a felt-like fabric for hats and other items. It has good water-absorbing abilities, once used as a medical dressing and by dentists to dry teeth, but still used in fly fishing for drying out flies.

Fomes fomentarius (commonly known as the tinder fungus, false tinder fungus, hoof fungus, tinder conk, tinder polypore or ice man fungus) grow on the bark of coniferous and angiosperm trees. They have the appearance of a horse’s hoof and vary in colour from a silvery grey to almost black, though they are normally brown.

Tinder fungus (Fomes fomentarius) on a dead birch. Approximately 10 years old mushroom. Ukraine.

Uses

  • Ancient: fire tinder (used to catch sparks from flint struck against iron pyrites)
  • Recent: Medial dressing / cleaning cloth
  • Recent: Dental drying
  • Recent: Razor strop (strip rubbed over the edge of a razor blade for final polishing)
  • Recent: production of hats, bags and such like
Romanian Amadou Fedora by Mako Csaba
  • Current: fly fishing for drying out flies.

Potential Uses

  • No known contemporary research, exploratory/student projects.
  • We wonder if amadou or a derived material could be used as a leather / felt substitute in contemporary design. However the issue of it’s flammability needs to be considered!

Processes

  • Remove from the tree
  • Scrape off hard outer layer

For tinder:

  • Cut thin strips of the inner spongy layer
  • Dry

For ‘felt’ like material: (from this 2001 Telegraph article by John Beer)

  • Chop in half: it mostly consists of tube gills running up from the base, with the amadou (a small quantity) sitting on top of these gills (known as the trama layer)
Fomes fomentarius cross section, showing trama and pore tubes. Photo: Paul Kirtley.
  • Slice this amadou off the top of the fungus
  • Soak for a week in a solution of washing soda, beating it gently from time to time (alternative processes suggest using urine, or boiling or soaking in a solution of nitre, potassium nitrate, or simply hardwood ash)
  • Rinse and dry; it will go hard as it dries
  • Beat out flat to produce a thin, soft sheet of amadou

More Information

  • https://en.wikipedia.org/wiki/Amadou
  • https://en.wikipedia.org/wiki/Fomes_fomentarius
  • http://www.telegraph.co.uk/gardening/3294222/Reel-life-fomes-fomentarius.html
  • http://www.primitiveways.com/Amadou%20substitutes.html

Linen

Linen is a natural fibre derived from the flax plant. It is one of the oldest textiles of the world. The linen fabric has a coarse structure which makes it a cool and fresh fabric, comfortable to wear in hot weather.

Linen is a natural fibre derived from the flax plant. It is one of the oldest textiles of the world. The linen fabric has a coarse structure. In its pure form it can feel stiff but, blended with cotton, the fabric has a softer texture.

  • Fabric e.g. for shirts, dresses

Potential Uses

  • As a matrix for a natural composite

Processes

  • Linen yarn is spun from the long fibres found just behind the bark in the multi-layer stem of the flax plant (Linum usitatissimum). In order to retrieve the fibres from the plant, the woody stem and the inner pith, which holds the fibers together in a clump, must be rotted away. The cellulose fibre from the stem is spinnable and is used in the production of linen thread and cordage. From linen thread, fabric is woven.

Reference

  • https://tootal.nl/en/fabric-factsheet-en/cotton-linen-fabrics/
  • https://www.fabric.com/shop/white-cotton-linen
  • http://www.madehow.com/Volume-4/Linen.html#ixzz4n4z3YJem
  • https://www.decktowel.com/pages/how-linen-is-made-from-flax-to-fabric
  • http://www.cottonsjourney.com/storyofcotton/page5.asp

Bamboo Fabric

Bamboo fibres can be used to create a textile fabric with multiple uses from ordinary clothing to a dish cloth. This fabric is naturally antibacterial and is soft, feeling like a cross between cashmere and silk. 

Bamboo fibres can be used to create a textile fabric with multiple uses from ordinary clothing to a dish cloth. This soft fabric is claimed to have a number of excellent features such as naturally antibacterial, UV protective, anti-static with good ventilation and limited odor retention. Providing a texture between cashmere and silk, it is called the “breathing” fabric.

Uses

  • Clothing
  • Bathrobes and towels
  • Bed clothes
  • Underwear
  • Wall paper
  • Curtains
  • Bandages
  •  Masks
  • Surgical clothes/operating gowns
  • Grease removing dish cloth (without the need for detergent)

Potential Uses

None as yet identified. Your contributions welcome!

Processes

  • Bamboo fibres are all cellulose fibre extracted or fabricated from natural bamboo, but they vary widely.
  • Textiles labelled as being made from bamboo are usually not made by mechanical crushing and retting. They are generally synthetic rayon made from cellulose extracted from bamboo.
  • Most of the bamboo used to make bamboo-derived rayon and its clothing is grown in China by Hebei Jigao Chemical Fiber Company, which holds several patents on processes for turning bamboo into fibre.

More Information

  •  http://textilelearner.blogspot.hk/2014/06/application-of-bamboo-fabric.html
  • https://en.wikipedia.org/wiki/Bamboo_textile
  • http://www.bamboogrove.com/uses-bamboo-fabric.html
  • https://www.am730.com.hk/column/Lifestyle/%E6%B8%85%E6%BD%94%E5%8F%88%E7%92%B0%E4%BF%9D-%E7%AB%B9%E7%BA%96%E7%B6%AD%E6%B4%97%E7%A2%97%E5%B8%83-13848

Animal Bones

Animal bones have numerous uses including as a component of porcelain, glue, gelatin and black pigment.

Animal bones have numerous uses including as a component of porcelain, glue, gelatin and black pigment.

 Uses

  • Buttons
  • Tool-handles
  • Construction material
  • Technical gelatin
  • Liquid glue
  • Black pigment (from bone char)

Potential Uses

  • Bone Plastic

A team at Clemson University have been working on designing a plastic  made from meat and bone meal. These were mixed with ultra-high-molecular weight polyethylene (UHMWPE), a tough material used in skis. The resulting composite is nearly as durable as UHMWPE.

Processes

  • Degreasing—For all purposes the degreasing of the bones is the first process to be carried out.
  • Benzine Process—Practically the whole of the fat contained in bones can be recovered without any loss of gelatinous material by the benzine extraction process. The fat is extracted by digesting the bones with petroleum ether (benzine) or Scotch shale oil (boiling point 212°-270°F.).

More Information

  • Encyclopedia-Britannica-Volume-3-Baltimore-Braila:
    http://gluedideas.com/Encyclopedia-Britannica-Volume-3-Baltimore-Braila/Industrial-Uses-of-Bone.html
  • http://gluedideas.com/Encyclopedia-Britannica-Volume-3-Baltimore-Braila/Industrial-Uses-of-Bone.html
  • https://www.sonac.biz/ingredients/bone-products/
  • [feature photo] – http://www.boneroom.com/uploads/4/8/1/1/48118243/s521972503441136676_p477_i2_w2000.jpeg

Cork

Cork is an age old material with excellent properties including being an impermeable buoyant material, compressible, good insulator and fireproof. It is increasingly used as a building material e.g. flooring.

Photo retrieved from Rain Forest Alliance: http://www.rainforest-alliance.org/species/cork-oak

The cork oak grows only in seven Mediterranean countries – Portugal, Italy, Spain, France, Algeria, Morocco, and Tunisia. Over 300,000 tons are harvested (stripped) per year. As an impermeable buoyant material, it is desireable for its compressibility, insulation and fireproof properties, as well as its resistance to abrasion.

Uses

  • bottle stopper (e.g. wine cork)
  • building material e.g cork bricks
  • flooring
  • furniture
  • umbrella

Potential Uses

No new uses identified yet by authors. Your contributions welcome!

Processes

  • Harvesting: A cork oak tree can be harvested twelve times in its lifetime with the first harvest taking place after approximately 25 years. Cork harvesting is done by hand without the aid of machinery.

More Information

Henna

Henna, a versatile plant in terms of its applications, is typically and widely used in India since antiquity, to dye skin, hair, fingernails and fabrics such as silk, wool and leather.

Image source: http://mediaindia.eu/wellness/henna-a-miracle-plant/

Henna, a versatile plant in terms of its applications, is typically and widely used in India since antiquity, to dye skin, hair, fingernails and fabrics such as silk, wool and leather.

Uses

  • Natural dye/ temporary body art: also named as mehndi.
Image source: https://newworldhenna.com/about-henna-2017/

 

Processes

  • From coarse crushed leaves, powder is generated after drying, milling and sifting the plant’s leaves.
  • By mixing with liquids such as lemon juice, strong tea and sometimes, sugar or molasses, henna paste is formed and ready for dying.

More Information

Bottlegourd/ Calabash/ Hulu

Calabash has long been used as a container and musical instruments, for instance Chinese folk instrument cucurbit flute (hulusit).

Calabash, Bottlegourd, or in Chinese, Hulu, is one of the most ancient crops in the world. Its seeds and fruit were first found over 7000 years ago in Zhejiang, China. In other parts of the world such as today in Mexica, Peru and Thailand, we can also find planted bottlegourds with thousands years of history.

Uses

Image retrieved from: https://www.aliexpress.com/store/product/Chinese-Cucurbit-Flute-Hulusi-Resin-Gourd-Flauta-Hulusi-C-Bb-Key-Imitation-Redwood-Calabash-Flute-Hulusi/1212802_32393140829.html

Known for its natural hourglass shape, it has long been used for containers, then musical instruments, for instance Chinese folk instrument cucurbit flute (hulusit). See more at Hulusi – Chinese Woodwind Instrument.

More Information

  • http://www.easonmusicschool.com/chinese-orchestra-instruments/chinese-woodwind-instruments/hulusi/
  • http://www.ooobject.com/opo.html
  • http://www.ooobject.com/hulu.html