ANOUK ZEEUW VAN DER LAAN

Ph.D. Candidate - Dyson School of Design Engineering at Imperial College London

[email protected]

Supervisor

Dr. Marco Aurisicchio

Dr. Elvin Karana

Dr. Valentina Rognoli

Anouk is a PhD Candidate at the Dyson School of Design Engineering at Imperial College London. She received her BSc. and MSc. in Industrial Design Engineering at Delft University of Technology. Anouk developed an interest for materials and why materials that can last centuries, are often selected for disposable products used for minutes. Her MSc thesis was material-driven and aimed to investigate opportunities for the use of waste materials, such as waste coffee grounds [1]. After her graduation Anouk continued to work with a Material-Driven Design approach in the development of new materials in collaboration with Innventia. To better understand the mismatch of material lifetime and product lifetime, Anouk joined the Kraft Heinz Company to learn about materials in the fast-moving consumer goods industry. She worked in continuous improvement, packaging procurement and packaging R&D. 

Publications

1. Karana E., Barati, B., Rognoli V., Zeeuw Van Der Laan, A., (2015). Material Driven Design (MDD): A Method To Design For Material Experiences. International Journal of Design, 9(2), 35-54. 

2. Zeeuw van der Laan, A. and Aurisicchio, M. (2017) ‘Planned Obsolescence in the Circular Economy’, in PLATE conference 2017, pp. 446–452. doi: 10.3233/978-1-61499-820-4-446.

CLARICE RISSEEUW

PhD Candidate – Delft University of Technology, The Netherlands.

[email protected]

Supervisor

Prof. Dr. Elvin Karana

Dr. Holly McQuillan

Dr. Joana Martins

Clarice is a PhD candidate at the TU Delft, exploring the potential of flavobacteria’s living colour as responsive medium. She holds a bachelor’s degree in Industrial Design Engineering as well as a master’s degree in Integrated Product Design from the same university. During her studies in Delft and an exchange program at the NTNU, Norway, she was more and more attracted to bio design as it was the perfect way to combine her passions for design and nature. She started working with flavobacteria during her graduation project, in which she characterized, captured and communicated this organism’s vivid structural colourations. Afterwards, she joined Materials Experience Lab as a biodesign researcher of Caradt to continue her research. Still amazed by this beautiful microorganism, Clarice has now returned to the TU Delft as a PhD candidate, supervised by Prof. Dr. Elvin Karana, Dr. Holly McQuillan and Dr. Joana Martins.

Current Project

The PhD research focuses on exploring the potential of flavobacteria’s living colour as responsive medium. Bridging microbiology and design, we aim to take flavobacteria out of the lab and develop a living responsive material able to communicate through vivid colourations. Here we envision soft interfaces that can be activated by the user, offering unique possibilities for interaction design.

BARBARA POLLINI

Ph.D. Candidate - Politecnico di Milano, Department of Design, Italy

[email protected]

Supervisor

Prof. Valentina Rognoli

Since 2010 I have been dealing with sustainable design; specializing with a Master in Ecodesign and Eco-innovation, where I learned a life cycle design approach, and a Master's Degree in Computational Design, where I deepened the integration of biomimicry for the development of new materials, based on generative modelling and additive manufacturing.

Over the years, I have researched D4S from different perspectives: as a designer, educator and consultant, deepening in recent years the topic of sustainable materials (mainly circular, organic, waste-based and biofabricated ones), paying attention to both industrial production and self-production phenomena, such as DIY-Materials. Matter, and its management in the design process, are often crucial in the environmental impact of products and services; for the same reason, materials can become a turning point in innovation and sustainability for future productions. This is the case for materials made from and with living organisms, which are today the focus of my PhD research. With a transdisciplinary approach combining material design, biology and ecology, the study investigates how this new emerging materiality can be framed in the context of sustainable design. As a PhD candidate, I have been involved in the EU-funded project "MaDe: Material Designers. Boosting Talent towards Circular Economy". Currently, I'm involved in the research project "De_Forma: Design Explorations on bio-Fabricated Organic Materials" in Politecnico di Milano; I'm a Visiting PhD student at ITESO, Universidad Jesuita de Guadalajara, Mexico, collaborating with Materioteca ITESO and lecturing for the course of Circular Materials; I'm sharing my research path(s) on healing-meterialities.design, an online observatory where I'm making available tools, publications and expert interviews on biodesign and biofabricated materials.

Current Project

HEALING MATERIALITIES FROM A BIODESIGN PERSPECTIVE

My research focuses on those material scenarios based on the regenerative processes of resources instead of depletion. Including both living materials (made of and with living organisms) and life-enabling materials (inert materials welcoming and supporting life), this study develops in a context of multispecies design.

The research intersects the constantly evolving concept of sustainability, the material design discipline, and biodesign – the latter being a radical approach based on the integration of living organisms as functional components in the design process. The study originates from a transdisciplinary approach, adopted to understand the implications that living materials can have on sustainable design, aiming to define the boundaries of newly designed materialities where the final goal is to support life.

The conceptual framework deriving from this research is defined as Healing Materialities, highlighting the reconciling and repairing attitude of these materials, and framing them in a regenerative design perspective.

My research path is available via an online observatory where tools, publications, and interviews with experts are shared (beta version accessible here).

Publications

1. Pollini, B. (2021). Sustainable design, biomimicry and biomaterials: exploring interactivity, connectivity and smartness in Nature. Chapter in: Rognoli, V., Ferraro, V (Eds.), “ICS Materials: interactive, connected, and smart materials”, Franco Angeli, Milano. pp 60–73

2. Rognoli V., Ayala-Garcia C., Pollini B. (2021). DIY Recipes. Ingredients, Processes and Materials Qualities. Chapter in: Clèries L., Rognoli V., Solanki S. e Llorach P. (Eds.), “Material Designers. Boosting talent towards circular economies”, Elisava School of Design and Engineering, Barcelona.

3. Pollini B., Lavagna M., Rognoli V. (2020). LCA-based material selection in the early stages of design: environmental benefits, tools, obstacles and opportunities. IX Conference of the Italian LCA Network Association, Cortina d'Ampezzo (BL).

4. Pollini B., Pietroni L., Mascitti J., Paciotti D. (2020). Towards a new material culture. bio-inspired design, parametric modeling, material design, digital manufacture. In Perriccioli M., Rigillo M., Russo Ermolli S., Tucci F., Design in the Digital Age. Technology, Nature, Culture (pp. 208-212). Bologna: Politecnica University Press, Maggioli editore.

5. Rognoli V., Santulli C., Pollini B. (2017). DIY-Materials design as an invention process. DIID. Disegno industriale, Industrial Design, vol.62/63, pp.9-17, Rome.

6. Pollini B., Maccagnan F. (2017). Thinking with our hands. Materia Rinnovabile / Renewable Matter N°19, December2017/January2018, ISSN 2385-2240, edited by Edizioni Ambiente

DR. Camilo Ayala Garcia

Assistant Professor - Design Department Universidad de los Andes Bogotá, Colombia.

c[email protected]

c[email protected]

dinomagroup.com

SupervisorS

Dr. Valentina Rognoli

Dr. Elvin Karana

Camilo obtained his Ph.D. degree on the topic of Do-It-Yourself Materials as triggers of change at Politecnico di Milano. Prior to this Ph.D. research, Camilo received his Bachelor degree in Industrial Design from the Los Andes University in Bogotá in the year 2004. He also obtained his Bachelor Degree in Textile Design from the same university simultaneously. In the year 2007, received his Master of Arts in Design degree from Domus Academy (the University of Wales accredited school of design) in Milan awarded with Distinction.

Camilo began his professional career in Colombia back in 2001, where he earned experience in the product design field developing several projects for renowned local and international clients. After various years of work as a professional designer, he moved to Germany to attend at Hochschule Pforzheim the MSc. Produktentwicklung (Product development) as a guest student and learn the language. Subsequently, he transferred to Italy to complete his Master studies. After his graduation, he started to share time being tutor at Domus Academy and working as a product designer for Donegani & Lauda studio and Cammarata Gioelli both in Milan for some years. Camilo decided to return to his hometown to become full-time professor and researcher at his alma mater where is currently entitled Assistant Professor in the design department.
Together with his teaching activities, Camilo devotes his research to local materials and products development, with several patents granted as well as different academic contributions published.

Project

THE MATERIALS GENERATION - The Emerging Experience of DIY Materials

Patents

1. Utility Patent: Hebilla Para Chaleco Antibalas. Deposited: 26/04/2011

   Patent Number: 11050690

   Sector: Mechanical Engineering

   Status: Granted

2. Utility Patent: Placa De Protección Balistica Para Chalecos Antibalas

   Personales En Material Compuesto.

   Deposited: 26/04/2011

   Patent Number: 11050701

   Sector: Chemical Engineering

   Status: Granted

3. Utility Patent: Chaleco Balístico Ajustable Portamuniciones.

   Deposited: 28/12/2012

   Patent Number: 12235979

   Sector: Mechanical Engineering

   Status: Granted

4. Utility Patent: Sistema Modular Flexible Multi Talla Para Casco De

   Protección Balística.

   Deposited: 04/03/2013

   Patent Number: 13043301

   Sector: Mechanical Engineering

   Status: Granted

SHAHAR LIVNE

Designer in residence

[email protected]

www.shaharlivnedesign.com

SUPERVISOR

Dr. Elvin Karana

Shahar Livne (1989) is an Israeli-born designer located in Eindhoven, The Netherlands. Her lifelong fascinations in nature, biology, science and more developed into intuitive material experimentation way of work during her bachelor studies at the Design Academy Eindhoven. Since 2014, Shahar’s body of work focuses on material research and her work process is characterized by trial and error experimentation in the search for interesting results. Some of her projects deal with obscure materials such as animals blood, man-made fossils, crystallization and more. Her projects starting points are often stories about places, cultures and everyday life, yet, materials are always in the center used as carriers of narratives. Shahar Sees herself as a conceptual material designer with an intuitive and research approach that materializes through written research and expressive objects compositions. currently, she works on developing her graduation projects from the Design Academy Eindhoven where she graduated at in 2017, investigating speculative material occurrences in nature.

Project (2018)

IN COLLABORATION WITH THE MATERIALS EXPERIENCE LAB

Environmental changes, deforestation and the spread of man-made pollutants are inevitably threatening the existence of natural materials and transforming nature as we know it. At the same time, new natural materials which are the result of environmental contamination are emerging, and man-made materials such as plastic are proliferating in our surroundings.

Investigating a post-plastic future, where the only place to extract petroleum-based plastics will be from nature in a new hybrid form, plastics will regain a new value, far beyond the way we see it in our current time.
By creating and developing Lithoplast- a speculative material which might be the result of thousands of years of natural metabolism and its encounter with the "golden spike" of humanity- plastics, Shahar embodies and research questions with this new raw material that can be processed in a similar way to clay and is acting as an ultimate symbol of the transformation of matter and the inevitable shifts of materials between nature, synthetic and cultural aspects.
In this project,  Shahar would like to use the MDD method to explore whether Lithoplast is experienced as natural or synthetic and how she can systematically tailor its qualities to enhance or worsen the experience of naturalness through craftsmanship and design objects. 

BaharEH Barati

Ph.D. Candidate - Delft University of Technology, The Netherlands

[email protected]

baharbarati.nl

Supervisors

Dr. Elvin Karana

Prof. Dr. Paul Hekkert

Bahareh is currently working towards her Ph.D. degree on the topic of creative design with underdeveloped smart materials. In the context of Light.Touch.Matters, a European Union FP7 project (2013-2016), she has explored the situation of designing in “upstream” collaborative projects to enable “design-driven” material innovation.  Her work acknowledges that looking at product design as an ad-hoc wrapping for some pre-determined material characteristics overshadows the importance of making and realizing in “negotiation with the material”. Giving power to this overlooked voice in discovering new possibilities with underdeveloped materials, her research put forward a number of theoretical and practical design supports (Hyperlink to the LTM design tool). The design supports particularly focus on characterizing and communicating the temporal and experiential aspects of these underdeveloped smart materials, as the development team explore the unique potentials of material-product development. Prior to this PhD research, Bahareh acquired her M.Sc. (cum laude) in Integrated Product Design from Technical University of Delft in 2012. In collaboration with Phillips Research (Eindhoven, the Netherlands), she developed a probe set for sensory evaluation of textile materials for her graduation project (Hyperlink to graduation project). In 2013, she was nominated for UfD-Royal HaskoningDHV Best Graduate Award. Bahareh is an alumnus of the University of Tehran and has maintained her contact with this university, through providing guidance and recently a workshop on interaction design (hyperlink to the news).

Current Project

DESIGNING WITH UNDERDEVELOPED SMART MATERIALS

February 2013 marked the start of Light.Touch.Matters, in which designers and material researchers joined forces to develop a completely new generation of smart materials that can sense touch and respond with luminescence. The base technologies are novel piezo plastics and flexible organic light-emitting diodes (OLEDs). Being thin, flexible and formable, these ‘light touch materials’ promise to revolutionize product design by integrating luminescence and touch in such a way that eventually the product becomes the interface (Project Link).

In this project, Bahareh’s reserach aims at supporting a more profound understanding of underdeveloped smart material composites and their potentials. To that aim, she developed functional demonstrators that instantiate the design space, physical probes that explicate the (material-related) design variables, and a hybrid tool that allows for higher fidelity experiences of these underdeveloped smart materials. Together these components constitute a design toolkit

Publications

1. Barati, B., Karana, E., Foole, M. (2017). Experience Prototyping’ Smart Material Composites. In Alive. Active. Adaptive: Proceedings of International Conference on Experiential Knowledge and Emerging Materials (EKSIG 2017), June 19-20, Delft, the Netherlands, pp. 50-65. 

2. Barati, B., Karana, E., & Hekkert, P. (in review, available upon request). Understanding The Experiential Qualities of Light Touch Matters: Toward a Tool Kit. Journal of Artifact.

3. Jansen, K., Claus, S., Barati, B. (2017). Designing of a semi-transparent Electroluminescent Umbrella. In Proceedings of Smart System Integration.  

4. Barati, B., Karana, E., Jansen, K., & Hekkert, P. (2016, February). Functional Demonstrators to Support Understanding of Smart Materials. In Proceedings of the TEI'16: Tenth International Conference on Tangible, Embedded, and Embodied Interaction (pp. 386-391). ACM. 

5. Barati, B., Karana, E., & Hekkert, P., Jönsthövel, I. (2015, November). Designing with an Underdeveloped Computational Composite for Materials Experience. In Proceedings of EKSIG 2015: Experiential Knowledge Special Interest Group.

6. Barati, B., Karana, E, Hekkert, P. (2015, October). From Way Finding in the Dark to Interactive CPR Trainer: Designing with Computational Composites. In Proceedings of DesForm 2015.

7. Barati, B., Karana, E., Sekulovski, D., & Pont, S. C. (2015). Retail lighting and textiles: Designing a lighting probe set. Lighting Research and Technology, 1-22.

8. Karana, E., Barati, B., Rognoli, V., & Zeeuw Van Der Laan, A. (2015). Material driven design (MDD): A method to design for material experiences. International journal of design, 19 (2) 2015.

ROYA AGHIGHI

Designer in residence

[email protected]

www.royaaghighi.com

SUPERVISOR

Dr. Elvin Karana

Roya is a multidisciplinary designer holding two industrial design degrees from Emily Carr University of Art and Design, Canada and Iran University of Science and Technology. Through her practice she aims to highlight the critical role of design in shaping human behaviours. Being a multidisciplinary designer, she activates the gap between various fields and aims to push the borders between traditional academic disciplines to explore and introduce alternative future possibilities.

She has been exploring with materials as the fundamental element to re-imagine the role of designer as well as shifting the emphasis from product to process. She believes that focusing on materials could shape a new way to experience the world and how we position ourselves within it. Roya has been one of the material activist designers-collaborating with material engineers, scientists and biologists at University of British Colombia for past years to activate bio-design practices in Canada. She was speaker, Panelist and her work was presented in various exhibitions and conferences such as: Fashion Colloquium-Arnhem Netherlands 2018, Vancouver Design Week-2018, Pollima Material Revolution-Los Angles 2018, Bioneers conference-Los Angles 2018. Roya currently is a designer in residence at Material Experience Lab working on application of living textiles in design practice and researching its impact on human interactions with clothing.

CURRENT Project

IN COLLABORATION WITH THE MATERIALS EXPERIENCE LAB

The adoption of fast fashion has had disruptive effects on environmental, social and behavioural factors globally. The drastic increase to the environmental impacts of textile waste and fast fashion consumption urgently need to be addressed. The fundamentals of our global/economic fashion industry need to be restructured beginning with the destructive nature of our current mainstream relationship to clothing. This dynamic has significant consequences. Fashion consumption has become a passive act, and we no longer care for the longevity of our clothing. Clothing is often disposed long before it reaches its expected life. The negative impacts of textile and fashion industry from environmental aspects are far greater than what it could be seen on the surface. From the 500,000 toxic nano-fibres that are released into water every time we wash our clothes, to the enormous carbon emissions emitted through both the production and disposal of our clothing, fashion has become a compromise that comes at a huge human, social, and environmental cost. What if clothes were alive and photosynthesized?