From 1d08b033f8fe99f5a1f76791195f7a33f636f657 Mon Sep 17 00:00:00 2001
From: Loes <l.bogers@hva.nl>
Date: Mon, 6 Apr 2020 20:38:33 +0200
Subject: [PATCH] update recycling and refs

---
 docs/files/recipes/agarcomposite.md        |  9 ++++-----
 docs/files/recipes/agarfoil.md             |  2 +-
 docs/files/recipes/alginatefoil.md         | 11 ++++++-----
 docs/files/recipes/alginatenet.md          | 10 +++++++---
 docs/files/recipes/alginatestring.md       |  9 ++++++---
 docs/files/recipes/bananaclay.md           |  5 +++++
 docs/files/recipes/biofoam.md              | 16 ++++++++--------
 docs/files/recipes/biofoilextraflexible.md |  9 ++++++---
 docs/files/recipes/biolino.md              |  8 ++++----
 docs/files/recipes/biorubber.md            | 15 +++++++++------
 docs/files/recipes/biosilicon.md           |  8 +++++---
 11 files changed, 61 insertions(+), 41 deletions(-)

diff --git a/docs/files/recipes/agarcomposite.md b/docs/files/recipes/agarcomposite.md
index 9ee098d..2112371 100644
--- a/docs/files/recipes/agarcomposite.md
+++ b/docs/files/recipes/agarcomposite.md
@@ -131,7 +131,7 @@ All composites (even simple ones) are engineered materials. One of the great ben
 
 ### This recipe draws together information from these other recipes
 
-This is an adaptation of **Flexible bio-foil** by Cecilia Raspanti, Textile Lab, Waag Amsterdam for Fabricademy 2019-2020, Class pages, [link](https://drive.google.com/file/d/1Lm147nvWkxxmPf5Oh2wU5a8eonpqHCVc/view). A longer cooking time is recommended to create a thicker foil. 
+This is an adaptation of **Flexible bio-foil** by Cecilia Raspanti, TextileLab, Waag Amsterdam for Fabricademy 2019-2020, Class pages, [link](https://drive.google.com/file/d/1Lm147nvWkxxmPf5Oh2wU5a8eonpqHCVc/view). A longer cooking time is recommended to create a thicker foil. 
 
 ### Known concerns and contestations
 
@@ -147,10 +147,9 @@ Concerns and contestations are largely determined by the choice of constituent m
 - Biocompostable final product:  yes
 - Re-use: not sure for a composite, agar by itself can be melted by reheating it with a little water
 
-
 Needs further research?:  Not sure
 
-Do not recycle in PET-plastics waste streams to avoid contaminating it. 
+Should not be recycled as part of PET-plastics waste: this causes contamination of the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
 
 ## Material properties
 
@@ -205,7 +204,7 @@ Has recipe been validated?
 
 Yes
 
-By Cecilia Raspanti, Textile Lab, Waag Amsterdam, 9 March 2020
+By Cecilia Raspanti, TextileLab, Waag Amsterdam, 9 March 2020
 
 ### Estimated cost (consumables) in local currency
 
@@ -213,7 +212,7 @@ By Cecilia Raspanti, Textile Lab, Waag Amsterdam, 9 March 2020
 
 ## Copyright information
 
-This is an adaptation of **Agar biofoil** by Cecilia Raspanti, Textile Lab, Waag Amsterdam for Fabricademy 2019-2020, Class pages, [link](https://drive.google.com/file/d/1Lm147nvWkxxmPf5Oh2wU5a8eonpqHCVc/view). 
+This is an adaptation of **Agar biofoil** by Cecilia Raspanti, TextileLab, Waag Amsterdam for Fabricademy 2019-2020, Class pages, [link](https://drive.google.com/file/d/1Lm147nvWkxxmPf5Oh2wU5a8eonpqHCVc/view). 
 
 It is published under an Creative Commons Attribution Non-Commercial licence.
 
diff --git a/docs/files/recipes/agarfoil.md b/docs/files/recipes/agarfoil.md
index 02607fd..b551d58 100644
--- a/docs/files/recipes/agarfoil.md
+++ b/docs/files/recipes/agarfoil.md
@@ -145,7 +145,7 @@ In cooking, agar is known as the vegan and halal alternative to animal-based gel
 
 Needs further research?:  Not sure
 
-Do not recycle in PET-plastics waste streams to avoid contaminating it. 
+Should not be recycled as part of PET-plastics waste: this causes contamination of the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
 
 ## Material properties
 
diff --git a/docs/files/recipes/alginatefoil.md b/docs/files/recipes/alginatefoil.md
index 047ef11..cdf4735 100644
--- a/docs/files/recipes/alginatefoil.md
+++ b/docs/files/recipes/alginatefoil.md
@@ -127,7 +127,7 @@ Alginate plastics are also used a lot in molding and casting of dental technolog
 
 ### References this recipe draws from
 
-The alginate recipe is a modified version of: **Flexible Bio-plastic Alginate Recipe** by Cecilia Raspanti (Textile Lab, Waag), Fabricademy Class "Biofabricating", 2019, [link](https://class.textile-academy.org/classes/week05A/).
+The alginate recipe is a modified version of: **Flexible Bio-plastic Alginate Recipe** by Cecilia Raspanti (TextileLab, Waag), Fabricademy Class "Biofabricating Materials", 2019, [link](https://class.textile-academy.org/classes/week05A/).
 
 ### Known concerns and contestations
 
@@ -145,7 +145,7 @@ Needs further research?:  not sure
 
 Algae have some benefits compared to conventional farming of biomaterials: they don’t need agricultural land, therefore there is no competition for food or farmland. They have higher yields per hectare and are extremely efficient with water, and algae may grow on nutrients from residual streams, like waste water and CO2.    
 
-Recycling this bioplastic with PET plastics contaminates the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
+Should not be recycled as part of PET-plastics waste: this causes contamination of the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
 
 ## Material properties
 
@@ -212,9 +212,10 @@ It is published under an Creative Commons Attribution Non-Commercial licence.
 
 ##References
 
-- **Flexible Bio-plastic Alginate Recipe** by Cecilia Raspanti (Textile Lab, Waag), Fabricademy Class "Biofabricating", 2019, [link](https://class.textile-academy.org/classes/week05A/).
-- **The Science Of Spherification: Theoreticians examine the atomic details of an avant-garde culinary technique"**, by Bethany Halford, Chemical and Engineering News, Volume 92 Issue 42, pp. 35-36, October 2014: https://cen.acs.org/articles/92/i42/Science-Spherification.html 
-- **Alginic Acid** on Wikipeda: [link](https://en.wikipedia.org/wiki/Alginic_acid)
+- **Flexible Bio-plastic Alginate Recipe** by Cecilia Raspanti (TextileLab, Waag), Fabricademy Class "Biofabricating Materials", 2019, [link](https://class.textile-academy.org/classes/week05A/).
+- **Alginate Recipe** by Catherine Euale, Fabricademy 2018-19 [link](https://class.textile-academy.org/2019/catherine.euale/projects/P7algae/)
+- **The Science Of Spherification: Theoreticians examine the atomic details of an avant-garde culinary technique"**, by Bethany Halford, Chemical and Engineering News, Volume 92 Issue 42, pp. 35-36, October 2014: [link](https://cen.acs.org/articles/92/i42/Science-Spherification.html)
+- **Alginic Acid** on Wikipedia: [link](https://en.wikipedia.org/wiki/Alginic_acid)
 - **Development of bio-plastic from production technologies from microalgae** by AlgaePARC for Wageningen University & Research, 2012-2016: [link](https://www.wur.nl/en/show/Development-of-bioplastic-production-technologies-from-microalgae.htm)
 
 ## Images of final product
diff --git a/docs/files/recipes/alginatenet.md b/docs/files/recipes/alginatenet.md
index 0628f48..b92b818 100644
--- a/docs/files/recipes/alginatenet.md
+++ b/docs/files/recipes/alginatenet.md
@@ -146,7 +146,9 @@ All composites (even simple ones) are engineered materials. One of the great ben
 
 ### References this recipe draws from
 
-The alginate recipe is a modified version of: **Flexible Bio-plastic Alginate Recipe** by Cecilia Raspanti (Textile Lab, Waag), Fabricademy Class "Biofabricating", 2019, [link](https://class.textile-academy.org/classes/week05A/).
+The alginate recipe is a modified version of: **Flexible Bio-plastic Alginate Recipe** by Cecilia Raspanti (TextileLab, Waag), Fabricademy Class "Biofabricating Materials", 2019, [link](https://class.textile-academy.org/classes/week05A/).
+
+**Alginate Bioplastic** by Catherine Euale, Fabricademy 2018-19, [link](https://class.textile-academy.org/2019/catherine.euale/projects/P7algae/)
 
 The technique of alginate net casting is a variation on the experiments documented by **Carolina Delgado** (2020) in her Fabricademy [project page:](https://class.textile-academy.org/2020/carolina.delgado/projects/final-project/#netting)
 
@@ -168,7 +170,7 @@ Further research is required regarding the exact production processes of sodium
 
 Needs further research?:  not sure
 
-Recycling this bioplastic with PET plastics contaminates the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
+Should not be recycled as part of PET-plastics waste: this causes contamination of the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
 
 ## Material properties
 
@@ -237,7 +239,7 @@ and:
 
 ##References
 
-- **Flexible Bio-plastic Alginate Recipe** by Cecilia Raspanti (Textile Lab, Waag), Fabricademy Class "Biofabricating", 2019, [link](https://class.textile-academy.org/classes/week05A/).
+- **Flexible Bio-plastic Alginate Recipe** by Cecilia Raspanti (TextileLab, Waag), Fabricademy Class "Biofabricating Materials", 2019, [link](https://class.textile-academy.org/classes/week05A/).
 - **The Science Of Spherification: Theoreticians examine the atomic details of an avant-garde culinary technique"**, by Bethany Halford, Chemical and Engineering News, Volume 92 Issue 42, pp. 35-36, October 2014: https://cen.acs.org/articles/92/i42/Science-Spherification.html 
 - **Nature-Based System for Food Packaging** by Caroline Delgado, Fabricademy final project, 2020: https://class.textile-academy.org/2020/carolina.delgado/projects/final-project/#netting
 - **Textile as Scaffold** by Anastasia Pistofidou for Fabricademy, 30 October 2018: [link](https://class.textile-academy.org/classes/week088/)
@@ -246,6 +248,8 @@ and:
 - **What is Biocomposite?** by Ashish Kumar Dua, for Textile Learner, July 2013: [link](https://textilelearner.blogspot.com/2013/07/what-is-biocomposite-fibers-used-in.html)
 - **Alginic Acid** on Wikipeda: [link](https://en.wikipedia.org/wiki/Alginic_acid)
 - **Development of bio-plastic from production technologies from microalgae** by AlgaePARC for Wageningen University & Research, 2012-2016: [link](https://www.wur.nl/en/show/Development-of-bioplastic-production-technologies-from-microalgae.htm)
+- **Alginate Bioplastic** by Catherine Euale, Fabricademy 2018-19, [link](https://class.textile-academy.org/2019/catherine.euale/projects/P7algae/)
+
 
 ## Images of final product
 
diff --git a/docs/files/recipes/alginatestring.md b/docs/files/recipes/alginatestring.md
index 7c7e7ff..5028c03 100644
--- a/docs/files/recipes/alginatestring.md
+++ b/docs/files/recipes/alginatestring.md
@@ -142,7 +142,9 @@ Alginate plastics are also used a lot in molding and casting of dental technolog
 
 ### References this recipe draws from
 
-The alginate recipe is a modified version of: **Flexible Bio-plastic Alginate Recipe** by Cecilia Raspanti (Textile Lab, Waag), Fabricademy Class "Biofabricating", 2019, [link](https://class.textile-academy.org/classes/week05A/).
+The alginate recipe is a modified version of: **Flexible Bio-plastic Alginate Recipe** by Cecilia Raspanti (TextileLab, Waag), Fabricademy Class "Biofabricating Materials", 2019, [link](https://class.textile-academy.org/classes/week05A/).
+
+**Alginate yarn**, by Catherine Euale / Anastasia Pistofidou (FabTextiles) Fabricademy 2018-19, [link](https://class.textile-academy.org/2019/catherine.euale/projects/P7algae/)
 
 The technique of alginate string extrusion is a variation on the experiments documented by Carolina Delgado (2020) in her Fabricademy [project page:](https://class.textile-academy.org/2020/carolina.delgado/projects/final-project/#netting)
 
@@ -162,7 +164,7 @@ Needs further research?:  not sure
 
 Algae have some benefits compared to conventional farming of biomaterials: they don’t need agricultural land, therefore there is no competition for food or farmland. They have higher yields per hectare and are extremely efficient with water, and algae may grow on nutrients from residual streams, like waste water and CO2.    
 
-Recycling these with PET plastics contaminates the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
+Should not be recycled as part of PET-plastics waste: this causes contamination of the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
 
 ## Material properties
 
@@ -228,7 +230,8 @@ It is published under an Creative Commons Attribution Non-Commercial licence.
 
 ##References
 
-- **Flexible Bio-plastic Alginate Recipe** by Cecilia Raspanti (Textile Lab, Waag), Fabricademy Class "Biofabricating", 2019, [link](https://class.textile-academy.org/classes/week05A/).
+- **Flexible Bio-plastic Alginate Recipe** by Cecilia Raspanti (TextileLab, Waag), Fabricademy Class "Biofabricating Materials", 2019, [link](https://class.textile-academy.org/classes/week05A/).
+- **Alginate yarn**, by Catherine Euale / Anastasia Pistofidou (FabTextiles) Fabricademy 2018-19, [link](https://class.textile-academy.org/2019/catherine.euale/projects/P7algae/)
 - **The Science Of Spherification: Theoreticians examine the atomic details of an avant-garde culinary technique"**, by Bethany Halford, Chemical and Engineering News, Volume 92 Issue 42, pp. 35-36, October 2014: https://cen.acs.org/articles/92/i42/Science-Spherification.html 
 - **Nature-Based System for Food Packaging** by Caroline Delgado, Fabricademy final project, 2020: https://class.textile-academy.org/2020/carolina.delgado/projects/final-project/#netting
 - **Alginic Acid** on Wikipeda: [link](https://en.wikipedia.org/wiki/Alginic_acid)
diff --git a/docs/files/recipes/bananaclay.md b/docs/files/recipes/bananaclay.md
index 4d6feb0..9172cad 100644
--- a/docs/files/recipes/bananaclay.md
+++ b/docs/files/recipes/bananaclay.md
@@ -70,6 +70,8 @@ Approx. 75 grams (when wet)
 
 1. **Baking the clay**
 	- then put the slab in the oven for 30 mins at 130 degrees Celcius
+
+1. **Air drying the slab (min. 3 days)**
 	- Leave to air dry for 3 at least 3 days, alternate drying and pressing with a stack of books.
 	- Trim fraying edges with scissors before the slab is completely dry and hard. 
 
@@ -155,6 +157,9 @@ That said, agricultural production is not always done sustainably, and synthetic
 
 Needs further research?:  Yes, on reusability
 
+Should not be recycled as part of PET-plastics waste: this causes contamination of the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
+
+
 ## Material properties
 
 ### Comparative qualities
diff --git a/docs/files/recipes/biofoam.md b/docs/files/recipes/biofoam.md
index ea6bc94..14afee8 100644
--- a/docs/files/recipes/biofoam.md
+++ b/docs/files/recipes/biofoam.md
@@ -149,9 +149,9 @@ In short: not all plastics are petrol-based. Henry Ford experimented with plasti
 
 ### References this recipe draws from
 
-- **Biofoam Recipe** by Cecilia Raspanti (Textile Lab, Waag), Fabricademy Class "Biofabricating", 2019, [link](https://class.textile-academy.org/classes/week05A/).
-- **Biofoam Recipe** by Cecilia Raspanti (Textile Lab, Waag), biofoam sample from the material archive, n.d.
-- **The Secrets of Bioplastic** by Clara Davis (Fabtex, IAAC, Fab Lab Barcelona), 2017, [link](https://issuu.com/nat_arc/docs/the_secrets_of_bioplastic_).
+- **Biofoam Recipe** by Cecilia Raspanti (TextileLab, Waag), Fabricademy Class "Biofabricating Materials", 2017-2019, [link](https://class.textile-academy.org/classes/week05A/).
+- **Biofoam Recipe** by Maria Viftrup (TextileLab, Waag), biofoam sample from the material archive, 2017.
+- **The Secrets of Bioplastic** by Clara Davis (Fabtextiles, IAAC, Fab Lab Barcelona), 2017, [link](https://issuu.com/nat_arc/docs/the_secrets_of_bioplastic_).
 
 ### Known concerns and contestations\*
 
@@ -170,7 +170,7 @@ Using renewable ingredients is not by definition petrol-free. Imagine they have
 - Biocompostable final product:  yes
 - Re-use: melt with heat and a splash of water, and recast
 
-Gelatine-based bioplastics can be recasted by melting them in a pot with some water. Recycling them with PET plastics contaminates the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
+Gelatine-based bioplastics can be recasted by melting them in a pot with some water. Should not be recycled as part of PET-plastics waste: this causes contamination of the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
 
 Needs further research?:  not sure
 
@@ -241,10 +241,10 @@ It is published under an Creative Commons Attribution Non-Commercial licence.
 
 ##References
 
-- **The Secrets of Bioplastic** by Clara Davis (Fabtex, IAAC, Fab Lab Barcelona), 2017, [link](https://issuu.com/nat_arc/docs/the_secrets_of_bioplastic_).
-- **The Bioplastics Cookbook** by Fab Textiles Lab, YYYY, [link](https://issuu.com/nat_arc/docs/bioplastic_cook_book_3)
-- **Biofoam Recipe** by Cecilia Raspanti (Textile Lab, Waag Amsterdam), biofoam sample from the material archive, n.d.
-- **Biofoam (gelatin) Recipe** by Cecilia Raspanti (Textile Lab, Waag), Fabricademy Class "Biofabricating", 2019, [link](https://class.textile-academy.org/classes/week05A/).
+- **Biofoam Recipe** by Cecilia Raspanti (TextileLab, Waag), Fabricademy Class "Biofabricating Materials", 2017-2019, [link](https://class.textile-academy.org/classes/week05A/).
+- **Biofoam Recipe** by Maria Viftrup (TextileLab, Waag), biofoam sample from the material archive, 2017.
+- **The Secrets of Bioplastic** by Clara Davis (Fabtextiles, IAAC, Fab Lab Barcelona), 2017, [link](https://issuu.com/nat_arc/docs/the_secrets_of_bioplastic_).
+- **The Bioplastics Cookbook** by Fab Textiles Lab, n.d., [link](https://issuu.com/nat_arc/docs/bioplastic_cook_book_3)
 - **Lifecycle of a Plastic Product** by American Chemistry Council, n.d. [link](https://plastics.americanchemistry.com/Lifecycle-of-a-Plastic-Product/)
 - **Polymerization**, on Wikipedia, n.d.: [link](https://en.wikipedia.org/wiki/Polymerization)
 - **Seaweeds can be a new source of bioplastics** by Rajendran, N, Sharanya Puppala, Sneha Raj M., Ruth Angeeleena B., and Rajam, C. in Journal of Pharmacy Research, 12 March 2012: [link](https://www.researchgate.net/publication/258495452_Seaweeds_can_be_a_new_source_for_bioplastics)
diff --git a/docs/files/recipes/biofoilextraflexible.md b/docs/files/recipes/biofoilextraflexible.md
index 64d8a76..61ed034 100644
--- a/docs/files/recipes/biofoilextraflexible.md
+++ b/docs/files/recipes/biofoilextraflexible.md
@@ -132,8 +132,9 @@ In short: not all plastics are petrol-based. Henry Ford experimented with plasti
 
 ### References this recipe draws from
 
-- **Biofoil (gelatin) Recipe** by Cecilia Raspanti (Textile Lab, Waag), Fabricademy Class "Biofabricating", 2019, [link](https://class.textile-academy.org/classes/week05A/).
+- **Biofoil (gelatin) Recipe** by Cecilia Raspanti (TextileLab, Waag), Fabricademy Class "Biofabricating Materials", 2017-2019, [link](https://class.textile-academy.org/classes/week05A/).
 - **The Bioplastics Cookbook: A Catalogue of Bioplastics Recipes** by Margaret Dunne for Fabtextiles, 2018, [link](https://issuu.com/nat_arc/docs/bioplastic_cook_book_3) 
+- **Biofoil (gelatine) Recipe** by Monique Grimord (TextileLab, Waag), biofoil (gelatine) and Indian ink sample from the material archive, 2016.
 
 ### Known concerns and contestations\*
 
@@ -155,7 +156,7 @@ Using renewable ingredients is not by definition petrol-free. Imagine they have
 
 Needs further research?:  not sure
 
-Gelatine-based bioplastics can be recasted by melting them in a pot with some water. Recycling them with PET plastics contaminates the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
+Gelatine-based bioplastics can be recasted by melting them in a pot with some water. Should not be recycled as part of PET-plastics waste: this causes contamination of the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
 
 ## Material properties
 
@@ -223,8 +224,10 @@ It is unclear if any copyright rests on this recipe. Further research is require
 
 ##References
 
+- **Biofoil (gelatin) Recipe** by Cecilia Raspanti (TextileLab, Waag), Fabricademy Class "Biofabricating Materials", 2017-2019, [link](https://class.textile-academy.org/classes/week05A/).
+- **The Bioplastics Cookbook: A Catalogue of Bioplastics Recipes** by Margaret Dunne for Fabtextiles, 2018, [link](https://issuu.com/nat_arc/docs/bioplastic_cook_book_3) 
+- **Biofoil (gelatine) Recipe** by Monique Grimord (TextileLab, Waag), biofoil (gelatine) and Indian ink sample from the material archive, 2016.
 - **The Secrets of Bioplastic** by Clara Davis (Fabtex, IAAC, Fab Lab Barcelona), 2017, [link](https://issuu.com/nat_arc/docs/the_secrets_of_bioplastic_).
-- **The Bioplastics Cookbook: A Catalogue of Bioplastics Recipes** by Margaret Dunne for Fabtextiles, 2018, [link](https://issuu.com/nat_arc/docs/bioplastic_cook_book_3)
 - **Lifecycle of a Plastic Product** by American Chemistry Council, n.d. [link](https://plastics.americanchemistry.com/Lifecycle-of-a-Plastic-Product/)
 - **Polymerization**, on Wikipedia, n.d.: [link](https://en.wikipedia.org/wiki/Polymerization)
 - **Seaweeds can be a new source of bioplastics** by Rajendran, N, Sharanya Puppala, Sneha Raj M., Ruth Angeeleena B., and Rajam, C. in Journal of Pharmacy Research, 12 March 2012: [link](https://www.researchgate.net/publication/258495452_Seaweeds_can_be_a_new_source_for_bioplastics)
diff --git a/docs/files/recipes/biolino.md b/docs/files/recipes/biolino.md
index 54e3379..c611378 100644
--- a/docs/files/recipes/biolino.md
+++ b/docs/files/recipes/biolino.md
@@ -137,7 +137,7 @@ In short: not all plastics are petrol-based. Henry Ford experimented with plasti
 
 ### References this recipe draws from
 
-- **Bioresin (gelatin) Recipe** by Cecilia Raspanti (Textile Lab, Waag), Fabricademy Class "Biofabricating", 2019, [link](https://class.textile-academy.org/classes/week05A/).
+- **Bioresin (gelatin) Recipe** by Cecilia Raspanti (TextileLab, Waag), Fabricademy Class "Biofabricating Materials", 2017-2019, [link](https://class.textile-academy.org/classes/week05A/).
 - **The Bioplastics Cookbook: A Catalogue of Bioplastics Recipes** by Margaret Dunne for Fabtextiles, 2018, [link](https://issuu.com/nat_arc/docs/bioplastic_cook_book_3) 
 
 ### Known concerns and contestations\*
@@ -160,7 +160,7 @@ Using renewable ingredients is not by definition petrol-free. Imagine they have
 
 Needs further research?:  can this be remelted and reused?
 
-Recycling gelatine-based bioplastics them with PET plastics contaminates the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
+Gelatine-based bioplastics can be recasted by melting them in a pot with some water (but plastics with additives and fillers might not be reusable). Should not be recycled as part of PET-plastics waste: this causes contamination of the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
 
 ## Material properties
 
@@ -228,9 +228,9 @@ It is published under an Creative Commons Attribution Non-Commercial licence.
 
 ##References
 
-- **The Secrets of Bioplastic** by Clara Davis (Fabtex, IAAC, Fab Lab Barcelona), 2017, [link](https://issuu.com/nat_arc/docs/the_secrets_of_bioplastic_).
+- **Bioresin (gelatin) Recipe** by Cecilia Raspanti (TextileLab, Waag), Fabricademy Class "Biofabricating Materials", 2017-2019, [link](https://class.textile-academy.org/classes/week05A/).
 - **The Bioplastics Cookbook: A Catalogue of Bioplastics Recipes** by Margaret Dunne for Fabtextiles, 2018, [link](https://issuu.com/nat_arc/docs/bioplastic_cook_book_3)
-- **Bioresin (gelatin) Recipe** by Cecilia Raspanti (Textile Lab, Waag), Fabricademy Class "Biofabricating", 2019, [link](https://class.textile-academy.org/classes/week05A/).
+- **The Secrets of Bioplastic** by Clara Davis (Fabtex, IAAC, Fab Lab Barcelona), 2017, [link](https://issuu.com/nat_arc/docs/the_secrets_of_bioplastic_).
 - **Lifecycle of a Plastic Product** by American Chemistry Council, n.d. [link](https://plastics.americanchemistry.com/Lifecycle-of-a-Plastic-Product/)
 - **Polymerization**, on Wikipedia, n.d.: [link](https://en.wikipedia.org/wiki/Polymerization)
 - **Seaweeds can be a new source of bioplastics** by Rajendran, N, Sharanya Puppala, Sneha Raj M., Ruth Angeeleena B., and Rajam, C. in Journal of Pharmacy Research, 12 March 2012: [link](https://www.researchgate.net/publication/258495452_Seaweeds_can_be_a_new_source_for_bioplastics)
diff --git a/docs/files/recipes/biorubber.md b/docs/files/recipes/biorubber.md
index fa0909f..15bcc88 100644
--- a/docs/files/recipes/biorubber.md
+++ b/docs/files/recipes/biorubber.md
@@ -153,9 +153,10 @@ In short: not all plastics are petrol-based. Henry Ford experimented with plasti
 
 ### References this recipe draws from
 
-- **Bioresin (gelatin) Recipe** by Cecilia Raspanti (Textile Lab, Waag), Fabricademy Class "Biofabricating", 2019, [link](https://class.textile-academy.org/classes/week05A/).
-- **Tumorick bioplastic** by Maria Viftrup for the Material Archive at Textile Lab Waag (Amsterdam), n.d.
-- **The Bioplastics Cookbook: A Catalogue of Bioplastics Recipes** by Margaret Dunne for Fabtextiles, 2018, [link](https://issuu.com/nat_arc/docs/bioplastic_cook_book_3) 
+- **Turmeric bioplastic** by Maria Viftrup for the Material Archive at TextileLab Waag (Amsterdam), 2017
+- **The Bioplastics Cookbook: A Catalogue of Bioplastics Recipes** by Margaret Dunne for Fabtextiles, 2018: [link](https://issuu.com/nat_arc/docs/bioplastic_cook_book_3) 
+- **Recipes for Material Activism** by Miriam Ribul, via Issuu, 2014:[link](https://issuu.com/miriamribul/docs/miriam_ribul_recipes_for_material_a).
+- **Research Book Bioplastics** by Juliette Pepin, via Issuu, 2014:[link](https://issuu.com/juliettepepin/docs/bookletbioplastic)
 
 ### Known concerns and contestations
 
@@ -177,7 +178,7 @@ Using renewable ingredients is not by definition petrol-free. Imagine they have
 
 Needs further research?:  not sure
 
-Recycling biopolymers with PET plastics contaminates the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
+Gelatine-based bioplastics can be recasted by melting them in a pot with some water (but plastics with additives and fillers might not be reusable). Should not be recycled as part of PET-plastics waste: this causes contamination of the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
 
 ## Material properties
 
@@ -242,9 +243,11 @@ It is published under an Creative Commons Attribution Non-Commercial licence.
 
 ##References
 
+- **Turmeric bioplastic** by Maria Viftrup for the Material Archive at TextileLab Waag (Amsterdam), 2017
+- **The Bioplastics Cookbook: A Catalogue of Bioplastics Recipes** by Margaret Dunne for Fabtextiles, 2018: [link](https://issuu.com/nat_arc/docs/bioplastic_cook_book_3) 
+- **Recipes for Material Activism** by Miriam Ribul, via Issuu, 2014:[link](https://issuu.com/miriamribul/docs/miriam_ribul_recipes_for_material_a).
+- **Research Book Bioplastics** by Juliette Pepin, via Issuu, 2014:[link](https://issuu.com/juliettepepin/docs/bookletbioplastic)
 - **The Secrets of Bioplastic** by Clara Davis (Fabtex, IAAC, Fab Lab Barcelona), 2017, [link](https://issuu.com/nat_arc/docs/the_secrets_of_bioplastic_).
-- **The Bioplastics Cookbook: A Catalogue of Bioplastics Recipes** by Margaret Dunne for Fabtextiles, 2018, [link](https://issuu.com/nat_arc/docs/bioplastic_cook_book_3)
-- **Tumorick bioplastic** by Maria Viftrup for the Material Archive at Textile Lab Waag (Amsterdam), n.d.
 - **Make it and Break it: Bioplastics from Plant Starch with
 incorporation of Engineering Practices**, by Richard Harris, Carla Ahrenstorff Gracye Theryo, Aaron Johnson, Jane Wissinger. Center for Sustainable Polymers at the University of Minnesota, 2017: [link](https://csp.umn.edu/wp-content/uploads/2017/03/Make-it-and-Break-it.pdf)
 - **Lifecycle of a Plastic Product** by American Chemistry Council, n.d. [link](https://plastics.americanchemistry.com/Lifecycle-of-a-Plastic-Product/)
diff --git a/docs/files/recipes/biosilicon.md b/docs/files/recipes/biosilicon.md
index 4c87959..b20502a 100644
--- a/docs/files/recipes/biosilicon.md
+++ b/docs/files/recipes/biosilicon.md
@@ -128,7 +128,8 @@ In short: not all plastics are petrol-based. Henry Ford experimented with plasti
 
 ### References this recipe draws from
 
-- **Biosilicone Recipe** by Cecilia Raspanti (Textile Lab, Waag), Fabricademy Class "Biofabricating", 2019, [link](https://class.textile-academy.org/classes/week05A/).
+- **Biosilicone Recipe** by Cecilia Raspanti (TextileLab, Waag), Fabricademy Class "Biofabricating Materials", 2017-2019, [link](https://class.textile-academy.org/classes/week05A/).
+- **Biosilicone Recipe** by Maria Viftrup (TextileLab, Waag), biosilicpne sample from the material archive, 2017.
 
 ### Known concerns and contestations
 
@@ -150,7 +151,7 @@ Using renewable ingredients is not by definition petrol-free. Imagine they have
 
 Needs further research?:  not sure
 
-Gelatine-based bioplastics can be recasted by melting them in a pot with some water. Recycling them with PET plastics contaminates the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
+Gelatine-based bioplastics can be recasted by melting them in a pot with some water (but plastics with additives and fillers might not be reusable). Should not be recycled as part of PET-plastics waste: this causes contamination of the waste stream. Compost bioplastics in a warm environment with sufficient airflow.
 
 ## Material properties
 
@@ -216,9 +217,10 @@ It is published under an Creative Commons Attribution Non-Commercial licence.
 
 ##References
 
+- **Biosilicone Recipe** by Cecilia Raspanti (TextileLab, Waag), Fabricademy Class "Biofabricating Materials", 2017-2019, [link](https://class.textile-academy.org/classes/week05A/).
+- **Biosilicone Recipe** by Maria Viftrup (TextileLab, Waag), biosilicpne sample from the material archive, 2017.
 - **The Secrets of Bioplastic** by Clara Davis (Fabtex, IAAC, Fab Lab Barcelona), 2017, [link](https://issuu.com/nat_arc/docs/the_secrets_of_bioplastic_).
 - **The Bioplastics Cookbook: A Catalogue of Bioplastics Recipes** by Margaret Dunne for Fabtextiles, 2018, [link](https://issuu.com/nat_arc/docs/bioplastic_cook_book_3)
-- **Biosilicone Recipe** by Cecilia Raspanti (Textile Lab, Waag), Fabricademy Class "Biofabricating", 2019, [link](https://class.textile-academy.org/classes/week05A/).
 - **Lifecycle of a Plastic Product** by American Chemistry Council, n.d. [link](https://plastics.americanchemistry.com/Lifecycle-of-a-Plastic-Product/)
 - **Polymerization**, on Wikipedia, n.d.: [link](https://en.wikipedia.org/wiki/Polymerization)
 - **Seaweeds can be a new source of bioplastics** by Rajendran, N, Sharanya Puppala, Sneha Raj M., Ruth Angeeleena B., and Rajam, C. in Journal of Pharmacy Research, 12 March 2012: [link](https://www.researchgate.net/publication/258495452_Seaweeds_can_be_a_new_source_for_bioplastics)
-- 
GitLab