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'''Neri Oxman''' ({{lang-he|נרי אוקסמן}}; born February 6, 1976) is an [[American–Israeli]] designer and professor known for art and architecture that combines design, biology, computing, and materials engineering. She coined the phrase "material ecology" to define her work.<ref>{{cite web|url=http://www.materialecology.com/|title=Material Ecology website|access-date=October 15, 2011}}</ref><ref>{{cite web|url=http://dirt.asla.org/2009/08/20/material-ecology/|title=Material Ecology|date=August 20, 2009|publisher=The Dirt|access-date=April 25, 2011|archive-url=https://web.archive.org/web/20110718021252/http://dirt.asla.org/2009/08/20/material-ecology/|archive-date=July 18, 2011|url-status=dead|df=mdy-all}}</ref><ref>{{Cite news |last=Green |first=Penelope |date=2018-10-06 |title=Who Is Neri Oxman? |language=en-US |work=The New York Times |url=https://www.nytimes.com/2018/10/06/style/neri-oxman-mit.html |access-date=2023-09-08 |issn=0362-4331}}</ref><ref>{{Cite web |date=2021-11-18 |title=5 Women at the Forefront of Next-Gen Innovation |url=https://www.architecturaldigest.com/story/women-forefront-next-gen-innovation |access-date=2023-09-08 |website=Architectural Digest |language=en-US}}</ref>
Neri Oxman, an accomplished innovator in the fields of architecture, design, and technology, has significantly impacted these domains with her groundbreaking work. Born on February 6, 1976, in Haifa, Israel, Oxman's journey has been characterized by a fusion of art, science, and design, leading to innovative solutions that challenge conventional boundaries.


Many of Oxman's projects use new platforms and techniques for 3D printing and fabrication, often in collaboration with or inspired by nature and biology. They include co-fabrication systems for building hybrid structures with silkworms (''Silk Pavilion''),<ref name="pavilion">[http://www.dezeen.com/2013/06/03/silkworms-and-robot-work-together-to-weave-silk-pavilion/ Silkworms and Robot work together to weave silk pavilion], Dezeen, June 3, 2013.</ref> bees (''Synthetic Apiary''), and ants; ''Aguahoja'', a water-based fabrication platform that built structures such as ''Aguahoja'' out of [[chitosan]];<ref>{{Cite journal|last1=Mogas-Soldevila|first1=Laia |last2=Duro-Royo|first2=Jorge |last3=Lizardo|first3=Daniel |last4=Kayser|first4=Markus |last5=Patrick|first5= William |last6=Sharma|first6=Sunanda |last7=Keating|first7=Steven |last8=Klein|first8=John |last9=Inamura|first9=Chikara |last10=Oxman|first10=Neri |date=2015|title=DESIGNING THE OCEAN PAVILION: Biomaterial Templating of Structural, Manufacturing, and Environmental Performance|url=http://www.materialecology.com/assets/pdf/IASS2015_MediatedMatter_small.pdf|journal=Proceedings of the International Association for Shell and Spatial Structures (IASS) Symposium|access-date=September 16, 2016}}</ref>
Early Life and Education:
and ''G3DP'', the first 3D printer for optically transparent glass.<ref name="Architect2">{{Cite web|title=Glass I|url=https://mediatedmattergroup.com/glass-i|url-status=dead|archive-url=https://web.archive.org/web/20200707181534/https://mediatedmattergroup.com/glass-i|archive-date=July 7, 2020|website=Mediated Matter Group}}</ref> Some of these platforms have been developed for broader use.<ref name="ceramic-tech">{{Cite web|date=2019-03-26|title=3D-printed glass: Where are we now?|url=https://ceramics.org/ceramic-tech-today/glass-1/3d-printed-glass-where-are-we-now|access-date=2021-04-18|website=The American Ceramic Society|language=en-US}}</ref> Other projects print clothing, wearables,<ref name="bjork">{{Cite web|url=http://www.dancingastronaut.com/2016/06/bjork-performed-worlds-first-360-vr-stream/|title=Björk to perform the world's first 360 VR stream – Dancing Astronaut|date=June 28, 2016|website=Dancing Astronaut|language=en-US|access-date=August 2, 2016}}</ref> or structural elements, sometimes developing new composite materials in the process (such as resins containing biosynthetic bacteria<ref name="hybrid-living">{{Cite web|title=Hybrid Living Materials|url=https://oxman.com/projects/hybrid-living-materials|access-date=2021-04-18|website=Hybrid Living Materials|language=en-US}}</ref>).
Oxman's early passion for both arts and sciences laid the foundation for her future endeavors. She pursued her undergraduate studies at the Hebrew University of Jerusalem, earning a Bachelor of Science in medicine and a Bachelor of Arts in architecture. This interdisciplinary background set the stage for her holistic approach to design and innovation.


== Early life and education ==
Her academic journey continued at the Architectural Association School of Architecture in London, where she earned a Diploma in Architectural Association Design, followed by a Master of Science in Architecture and Urban Design at the Massachusetts Institute of Technology (MIT). This academic trajectory marked the beginning of Oxman's deep exploration into the intersection of design and technology.
Neri Oxman was born in [[Haifa]], [[Israel]], the daughter of architecture professors Robert and [[Rivka Oxman]].<ref name="FT1">{{cite web |last1=Roux |first1=Caroline |title=Neri Oxman: The Architect of Tomorrow |url=https://www.ft.com/content/e5200734-5884-11ea-abe5-8e03987b7b20 |website=[[Financial Times]] |access-date=August 18, 2021 |date=February 28, 2020}}</ref> Her sister Keren, is an artist.<ref name="Surface2">{{cite web |last1=Dvir |first1=Noam |title=Neri Oxman Is Redesigning the Natural World |url=https://www.surfacemag.com/articles/neri-oxman-material-ecology/ |website=[[Surface (magazine)|Surface]] |access-date=August 24, 2021 |date=June 7, 2016}}</ref> Oxman grew up in Israel, spending time in her parents' architecture studio and at her grandmother's house, which she said "cultivated in me a sense of wonder."<ref name="Elle1">{{cite web |last1=Langmuir |first1=Molly |title=Neri Oxman Has All the Answers |url=https://www.elle.com/culture/a28646115/neri-oxman-interview/ |website=[[Elle (magazine)|Elle]] |access-date=August 18, 2021 |archive-url=https://web.archive.org/web/20200103084853/https://www.media.mit.edu/articles/neri-oxman-has-all-the-answers/ |archive-date=January 3, 2020 |date=August 9, 2019}}</ref>

Innovation and Pain Points Addressed:
Oxman's innovative contributions revolve around the concept of "material ecology," a paradigm that integrates computational design, digital fabrication, and biomimicry to create sustainable and nature-inspired solutions. Her work seeks to address the pain points associated with traditional design and manufacturing processes, emphasizing a more symbiotic relationship between technology, nature, and human needs.

One of her notable innovations is the development of novel materials and fabrication techniques inspired by nature's efficiency and adaptability. Oxman's exploration of biologically inspired design elements aims to revolutionize how we create and interact with the built environment. By addressing the environmental impact of conventional production methods and promoting sustainable alternatives, she challenges the status quo in architecture and design.

Impact on Society:
Neri Oxman's impact on society is profound, transcending the realms of academia and reaching a broader audience. Her work has been exhibited globally, including at renowned institutions like the Museum of Modern Art (MoMA) in New York and the Centre Pompidou in Paris. Through her lectures, writings, and collaborations, Oxman has influenced a new generation of designers, architects, and scientists, fostering a more interconnected and sustainable approach to innovation.

The societal impact of Oxman's innovations extends beyond the design community. Her emphasis on ecological principles and biomimicry has implications for industries seeking more sustainable practices. By challenging the conventional divide between the natural and the artificial, Oxman prompts a reconsideration of how technology can align with, rather than exploit, the environment.

Current State of Innovation:
As of January 2022, Neri Oxman's innovative work continues to influence the fields of design, architecture, and technology. Her exploration of material ecology and biomimicry has inspired ongoing research and developments in sustainable design practices. The concept of 3D printing with environmentally friendly materials, as exemplified in some of her projects, has evolved as a focal point for researchers and practitioners alike.

In conclusion, Neri Oxman's contributions to innovation underscore the transformative power of interdisciplinary thinking. Her commitment to material ecology, biomimicry, and sustainable design resonates in both academic circles and the wider world, leaving an indelible mark on how we conceive, create, and interact with the designed environment.

Oxman. OXMAN. (n.d.). https://oxman.com/

Oxman, N. (n.d.). Neri Oxman. https://neri.media.mit.edu/

Person overview ’ Neri Oxman. MIT Media Lab. (n.d.). https://www.media.mit.edu/people/neri/overview/

International, K. (2023, May 22). Definition of top-down market sizing. https://kadence.com/en-us/what-is-top-down-market-sizing/#:~:text=If comprehensive data is readily,can yield more accurate results.


After graduating from the [[Hebrew Reali School]] in Haifa in 1993, she served two years in the [[Israeli Air Force]], reaching the rank of [[first lieutenant]].<ref name="Elle1"/><ref name="NYT1">{{cite web |last1=Green |first1=Penelope |title=Who Is Neri Oxman? |url=https://www.nytimes.com/2018/10/06/style/neri-oxman-mit.html |website=[[The New York Times]] |access-date=August 24, 2021 |date=October 6, 2018}}</ref> Following her military service, she attended [[Hebrew University]]'s [[Hadassah Medical School]] for two years before switching her studies to architecture. She began her architectural studies at [[Technion Israel Institute of Technology]] and finished her degree at the [[Architectural Association School of Architecture]] in [[London]], graduating in 2004.<ref name="Surface2"/> In 2005, Oxman began Ph.D. studies in architectural design and computation at the [[Massachusetts Institute of Technology]], advised by [[William J. Mitchell]]. Her thesis focused on material-aware design.<ref name="Thesis">{{cite thesis|last1=Oxman|first1=Neri|date=June 2010|title=Material-based design computation|url=https://dspace.mit.edu/handle/1721.1/59192|access-date=August 18, 2021|website=DSpace@MIT|publisher=[[Massachusetts Institute of Technology]]|hdl=1721.1/59192|type=Thesis}}</ref> She graduated from the doctoral program in 2010.


== Personal life ==
== Personal life ==

Revision as of 20:09, 7 December 2023

Neri Oxman
נרי אוקסמן
Oxman in 2017
Born (1976-02-06) February 6, 1976 (age 48)[1]
Haifa, Israel
NationalityIsraeli, American
Education
Occupation(s)Professor of media arts and science[2]
Spouses
  • (m. 2011; div. 2015)
  • (m. 2019)
Children1
MotherRivka Oxman
Awards
Scientific career
ThesisMaterial-based design computation (2010)
Doctoral advisorWilliam J. Mitchell
Military career
Allegiance Israel
Service / branch Israeli Air Force
Rank First lieutenant
Websiteoxman.com

Neri Oxman (Template:Lang-he; born February 6, 1976) is an American–Israeli designer and professor known for art and architecture that combines design, biology, computing, and materials engineering. She coined the phrase "material ecology" to define her work.[3][4][5][6]

Many of Oxman's projects use new platforms and techniques for 3D printing and fabrication, often in collaboration with or inspired by nature and biology. They include co-fabrication systems for building hybrid structures with silkworms (Silk Pavilion),[7] bees (Synthetic Apiary), and ants; Aguahoja, a water-based fabrication platform that built structures such as Aguahoja out of chitosan;[8] and G3DP, the first 3D printer for optically transparent glass.[9] Some of these platforms have been developed for broader use.[10] Other projects print clothing, wearables,[11] or structural elements, sometimes developing new composite materials in the process (such as resins containing biosynthetic bacteria[12]).

Early life and education

Neri Oxman was born in Haifa, Israel, the daughter of architecture professors Robert and Rivka Oxman.[13] Her sister Keren, is an artist.[14] Oxman grew up in Israel, spending time in her parents' architecture studio and at her grandmother's house, which she said "cultivated in me a sense of wonder."[15]

After graduating from the Hebrew Reali School in Haifa in 1993, she served two years in the Israeli Air Force, reaching the rank of first lieutenant.[15][16] Following her military service, she attended Hebrew University's Hadassah Medical School for two years before switching her studies to architecture. She began her architectural studies at Technion Israel Institute of Technology and finished her degree at the Architectural Association School of Architecture in London, graduating in 2004.[14] In 2005, Oxman began Ph.D. studies in architectural design and computation at the Massachusetts Institute of Technology, advised by William J. Mitchell. Her thesis focused on material-aware design.[17] She graduated from the doctoral program in 2010.

Personal life

Oxman was previously married to Argentine composer Osvaldo Golijov.[18] In 2019, she married investor and hedge fund manager Bill Ackman,[19] with whom she has a daughter.[20][21] They are co-trustees of the Pershing Square Foundation.[22]

Career

Oxman with Chuck Hoberman of Harvard Graduate School of Design

Oxman is the "Sony Corporation Career Development Professor and Associate Professor of Media Arts and Sciences" at the MIT Media Lab, where she founded and led the Mediated Matter research group.[23] She has had exhibitions at the Museum of Modern Art [MoMA],[24] Boston's Museum of Science, SFMOMA, and the Centre Pompidou, which have her works in their permanent collections.[25] MoMA curator Paola Antonelli called her "a person ahead of her time, not of her time",[18] and futurist Bruce Sterling called her work "shatteringly different from anything before".[26]

In 2006, Oxman launched an interdisciplinary research project at MIT called material ecology, to experiment with generative design.[27][28] She became a professor at MIT in 2010, founding the interdisciplinary Mediated Matter group at the MIT Media Lab,[29][30] and was awarded tenure in 2017.[31]

Her research interests involve parametric and contextual design, including engineering techniques to realize those designs in various materials and contexts. Examples include creating a "skin" for buildings that can tan in the sun to create shade, and structural biodegradable polymers.[16][15] She has published collaborations in biology, medicine, wearables, and the design of fabrication tools.[32]

Her work has been mentioned as an inspiration for changing how materials and structures are designed.[33][34][35] Her wearable collection was described by Andrew Bolton as "otherworldly—defined by neither time nor place".[36] In 2016, she helped launch the open Journal of Design Science,[37] an "antidisciplinary" journal which journal co-founder Joi Ito described as "working in spaces that simply do not fit into any existing academic discipline." She wrote that science, engineering, design and art are connected, with the output of each serving as input for the others.[38]

Oxman's early projects took the form of surfaces, furniture, or objects that could be worn or put on display. Since 2013, most projects have included temporary or interactive installations, including an overview of the production processes and study of its mechanism and material properties. These include both mechanical processes, such as for Ocean Pavilion and Glass I,[39] and biological ones, such as for Silk Pavilion and Synthetic Apiary.[40][41] Exhibited works are largely in the permanent collections of museums; Silk Pavilion II was acquired by the Esquel Group in Hong Kong.[42]

Oxman's work is in the permanent collections of museums including New York's Museum of Modern Art (MoMA), the San Francisco Museum of Modern Art (SFMOMA), the Museum of Applied Arts (MAK) in Vienna, the Smithsonian, and Boston's Museum of Fine Arts and Museum of Science.[43] In 2020, the MoMA displayed the first exhibition of her work as its own collection.[44][45]

In 2016, Oxman worked with Björk to create a mask based on the singer's face, and worked with Dutch fashion designer Iris van Herpen to 3D-print a collection of wearable couture.[16][46]

Design philosophy

Oxman at Pop!Tech 2009

Oxman's philosophy of material ecology was developed in 2006 while a graduate student at MIT.[27] It combines 3D printing techniques with biology, engineering, materials science, and computer science to create objects and structures through growth and without assembly.[47] She proposed developing a material ecology with "holistic products, characterized by property gradients and multi-functionality" – placing humanity in harmony with nature,[48] in contrast to assembly lines and “a world made of parts".[49]

She described her work as shifting "from consuming nature as a geological resource to editing it as a biological one."[50][51] This includes using biological shapes as inspiration, textures, and even fabrication, such as the glowing bacteria in Mushtari and the silkworms in the Silk Pavilion.[7][52] Antonelli described Oxman's work as a way to "decipher nature's myriad [design] lessons and render them digitally for future application at all scales"[48]

Oxman has spoken and written about her philosophy and its applications to design. Her approach to form generation and environmental design[53] is cited by rapid prototypers in other fields,[54] and her 2015 TED talk on material ecology has been viewed over 2.5 million times.[49][55] In 2019, the Netflix docu-series Abstract: The Art of Design featured her work in its second season.[56]

Works

Early works

Much of Oxman's early work focused on 3D printing related to human uses, including projects like Carpal Skin, which used the profile of pain for a person with carpal tunnel syndrome to ease their discomfort. She also produced Monocoque (2007), a demonstration of how a printed structure could support its weight via its exterior skin rather than interior supports.[57] This required a printer that could simultaneously print multiple materials with different structural properties,[58] a process she named 'variable property rapid prototyping'.[59][60]

Mediated Matter

Oxman in 2012

Started in 2010, Oxman's research and design lab at MIT, the Mediated Matter group, used computational design, digital fabrication, 3D printing, materials science and synthetic biology to work with both small and large structures.[43][50] The group developed its own methods and printing platforms, and worked with a range of 3D production systems. Projects have ranged in scale from enclosures and large furniture, to artwork and clothes, to biocomposites, artificial valves, and DNA assembly. Production methods include taking images of a biological or natural sample, developing algorithms to produce similar structures, and developing new manufacturing processes to realize the results. Projects include wearable clothes and tools,[61] solar-powered and biodegradable designs,[62] new artistic techniques, and construction of surfaces, walls, coverings and load-bearing elements.

Organic and natural fabrication

A number of Oxman's works have involved fabrication by animals or by natural processes.

The Silk Pavilion, an installation designed in 2013, was noted for its fabrication method as much as its final form. It was woven by 6,500 free-ranging silkworms on a nylon-frame dome.[63] Experiments with the silkworms identified how they would respond to different surfaces, and what would encourage them to spin onto an existing structure rather than spinning a cocoon. The frame of a large polyhedral dome was loosely woven by a robotic arm out of thin nylon threads, and suspended in an open room.[64] The dome was designed with gaps where it would be warmest. Silkworms were released onto the frame in waves, where they added layers of silk before being removed. This involved engineering, sericulture, and modeling sun in the room. The resulting pavilion was hung so that people could stand inside it. This was reprised in 2020 for Silk Pavilion II, installed as part of the Oxman exhibition at MoMA.[65]

The Synthetic Apiary, a room-sized installation built in 2015, studied the behavior of bees in an indoor environment, including how they built hives in and around different structures. This was developed in collaboration with a beekeeping company, as a way of testing possible responses to colony loss, and exploring how biological niches could be integrated into buildings.[66]

Wearables

In 2012, Oxman printed a set of body-sized wearables, Imaginary Beings, inspired by legendary creatures.[67] She also collaborated with van Herpen and materials engineer Craig Carter on Anthozoa, a cape and skirt evocative of marine life.[68]

In 2015, she designed the Wanderers collection, inspired by interplanetary exploration, in collaboration with Christoph Bader and Dominik Kolb. The collection included the Living Mushtari chestpiece, a model digestive tract filled containing a colony of microorganisms that could sustain life in harsh environments.[69]

In 2016, she produced Rottlace, a 3D-printed mask for Björk,[70] based on a 3D scan of the performer's face. Björk wore it in the world's first 360° virtual reality livestream.[11][71] Oxman also developed Lazarus, a project designed to capture the wearer's last breath, and began work on Vespers, a collection of 15 death masks. The masks were divided into past, present, and future, and embedded with minerals and bacteria.[72][73]

Environments

In 2014, she collaborated with Carter on Gemini, a chaise longue with a milled wood frame and 3D-printed upholstery designed for both structural and acoustical properties, designed to recreate a calming womb-like environment.[74] It was produced with a combination of additive and subtractive printing. SFMOMA acquired the piece the next year.[75] This work gave rise to a model for a larger scale Gemini Cinema.[76]

The G3DP glass printing process

3D printing platforms

Mediated Matter also prototyped new platforms and tools for printing. These included a printer that can print entire sections of rooms, a glass printer, and a quick-curing printer that can make free-standing objects without support structures.[77]

Glass

In 2014, they developed G3DP,[78][79] the first 3D printer to produce optically transparent glass.[80][81] At the time, sintering 3D printers could print with glass powder, but the results were brittle and opaque.[82] G3DP was a collaboration with MIT's Glass Lab and the Wyss Institute, emulating traditional glass working processes, with a kiln and annealing chamber. The process allowed close control of color, transparency, thickness and texture.[83][84] Certain settings turned the printer into a "molten glass sewing machine".[85] Two generations of the printer, G3DP and G3DP2, produced collection of vessels that have gone on exhibit as Glass I and Glass II.[86][87]

A 10-foot glass and light sculpture printed by this platform,YET, was installed at the 2017 Milan Design Week.[88]

Aguahoja

Also in 2014, the group developed Aguahoja, a project involving a water-based fabrication platform that built structures out of chitosan, a curable water-soluble organic fiber similar to chitin. Structural pillars or long leaves could be made by varying how the fibers were deposited. The resulting combination of hard and soft structures could change from solid to willowy over the length of a branch or leaf, using the same base material.[15] This was demonstrated in a pair of installations, Aguahoja I and II, featuring a central 15-foot tall sculpture resembling "enormous, folded cicada wings".[89]

Digital Construction Platform

In 2016, the group developed a large-scale robotic printing system, the Digital Construction Platform (DCP), which printed polyurethane foam molds with a robot arm based on the Altec aerial work platform. DCP v2 was able to print a section of a dome 15 meters across and 4 meters high.[90][91][92]

Other developments

Starting in 2018, the Mediated Matter lab developed the Totems project, exploring ways to extract melanin from different species and embed it in 3D-printed structures. This led to a concept for buildings with facades that respond to sunlight, such as a proposed architectural pavilion initiated by Ravi Naidoo and introduced at his Design Indaba conference.[93][94]

In 2019, an MIT report revealed that the lab had received $125,000 from Jeffrey Epstein, part of a series of donations he made to the Media Lab and its director Joi Ito.[95][96]

From 2017 to 2020, a new Silk Pavilion was developed, Silk Pavilion II, exploring new potential models for gathering silk from silkworms without needing to boil cocoons and end the silkworm's lifecycle.[97]

In 2020, the lab produced a new Aguahoja installation, Aguahoja III, identical to the first but stored in a climate-controlled gallery. This is intended to serve as a long-term control against which to compare the original, in measuring how chitosan degrades or is influenced by environmental changes.[98] The lab stopped active work in 2021.[99]

Recent work

Starting in 2020, Oxman's studio, Oxman Architects, has explored similar themes in their projects. They produced a documentary about their work, Nature × Humanity,[100] which became the name of an 2022 exhibition of their work at SFMOMA.[101]

In 2020, she created the final version of Silk Pavilion II, weaving a new pavilion in Padua, Italy in collaboration with a silkworm-rearing facility in nearby Teolo. The structure was constructed on a dissolvable hyperboloid.[97]

In 2021, her team revisited the Synthetic Apiary, constructing a new environment for bees to build hives, printed with embedded pheromones. The resulting hive structures were analyzed by CT scans to allow digital reconstruction and provide insight into the bees' construction process.[102] They also designed an experiment testing how bees respond to low-gravity environments, and fabricated a new type of payload module to house the experiment on a Blue Origin suborbital flight.[103]


Selected works

  • Cartesian Wax, Monocoque, Raycounting[104] (2007, MoMA)[105]
  • Carpal Skin[106] (2010, Museum of Science)
  • Imaginary Beings (2012, Centre Pompidou)
  • Silk Pavilion I (2013) and II (2020), installation
  • Anthozoa (2013, MFA), couture dress
  • Ocean Pavilion (2014), installation
  • Gemini (2015, SF MoMA), acoustical chaise
  • Wanderers collection (2015,[107] incl. Living Mushtari)
  • Glass I (2014), 3D printer & glasswork[108]
  • Synthetic Apiary (2015), installation[109]
  • Rottlace (2016, Björk), masks[11]
  • Vespers (2016–2018), death mask series[73]
  • Aguahoja I & II (2017–2019), biocomposite structures[110]
Art, surfaces, and furniture
Wearables, machines, and installations

Selected exhibits

Awards and recognition

Oxman is a senior fellow in the Design Futures Council, and a Royal Designer for Industry in the UK.[118][119] She has won the Vilcek Prize in Design,[120] a National Design Award,[121] and a SFMOMA Contemporary Vision Award.[122]

In 2016, she served as a culture leader at the World Economic Forum and received MIT's Collier Medal.[123] In 2018, she received a Design Innovation Medal from the London Design Festival.[122][124][125] Aguahoja I was named "Sustainable Design of the Year" and "Design Project of the Year" in Dezeen's annual awards.[126][127]

Publications and essays

  • 2020: Hybrid Living Materials[128]
  • 2018: Making Data Matter[129]
  • 2016: 3D printed multimaterial microfluidic valve[130]
  • 2016: Recursive symmetries for complex additive manufacturing[131]
  • 2015: Flow-based fabrication[132]
  • 2015: Additive Manufacturing of Optically Transparent Glass[133]
  • 2016: Grown, printed, and biologically augmented[134]
  • 2015: DNA assembly in 3D-printed fludics[135]
  • 2014: Gemini: Multi-material digital design fabrication[136]
  • 2011: Variable property rapid prototyping[137]

Selected awards:

References

  1. ^ Antonelli, Paula (January 1, 2008). Design and the elastic mind. NY, NY: Museum of Modern Art. p. 75. ISBN 9780870707322. OCLC 780473124.
  2. ^ Hill, David J. (June 4, 2012). "3D Printing Is The Future Of Manufacturing And Neri Oxman Shows How Beautiful It Can Be". singularityhub.com. Retrieved June 4, 2012.
  3. ^ "Material Ecology website". Retrieved October 15, 2011.
  4. ^ "Material Ecology". The Dirt. August 20, 2009. Archived from the original on July 18, 2011. Retrieved April 25, 2011.
  5. ^ Green, Penelope (October 6, 2018). "Who Is Neri Oxman?". The New York Times. ISSN 0362-4331. Retrieved September 8, 2023.
  6. ^ "5 Women at the Forefront of Next-Gen Innovation". Architectural Digest. November 18, 2021. Retrieved September 8, 2023.
  7. ^ a b Silkworms and Robot work together to weave silk pavilion, Dezeen, June 3, 2013.
  8. ^ Mogas-Soldevila, Laia; Duro-Royo, Jorge; Lizardo, Daniel; Kayser, Markus; Patrick, William; Sharma, Sunanda; Keating, Steven; Klein, John; Inamura, Chikara; Oxman, Neri (2015). "DESIGNING THE OCEAN PAVILION: Biomaterial Templating of Structural, Manufacturing, and Environmental Performance" (PDF). Proceedings of the International Association for Shell and Spatial Structures (IASS) Symposium. Retrieved September 16, 2016.
  9. ^ "Glass I". Mediated Matter Group. Archived from the original on July 7, 2020.
  10. ^ "3D-printed glass: Where are we now?". The American Ceramic Society. March 26, 2019. Retrieved April 18, 2021.
  11. ^ a b c "Björk to perform the world's first 360 VR stream – Dancing Astronaut". Dancing Astronaut. June 28, 2016. Retrieved August 2, 2016.
  12. ^ "Hybrid Living Materials". Hybrid Living Materials. Retrieved April 18, 2021.
  13. ^ Roux, Caroline (February 28, 2020). "Neri Oxman: The Architect of Tomorrow". Financial Times. Retrieved August 18, 2021.
  14. ^ a b Dvir, Noam (June 7, 2016). "Neri Oxman Is Redesigning the Natural World". Surface. Retrieved August 24, 2021.
  15. ^ a b c d Langmuir, Molly (August 9, 2019). "Neri Oxman Has All the Answers". Elle. Archived from the original on January 3, 2020. Retrieved August 18, 2021.
  16. ^ a b c Green, Penelope (October 6, 2018). "Who Is Neri Oxman?". The New York Times. Retrieved August 24, 2021.
  17. ^ Oxman, Neri (June 2010). Material-based design computation. DSpace@MIT (Thesis). Massachusetts Institute of Technology. hdl:1721.1/59192. Retrieved August 18, 2021.
  18. ^ a b "Neri Oxman Is Redesigning the Natural World". Surface Magazine. June 6, 2016. Retrieved July 8, 2016.
  19. ^ Mallozzi, Vincent (January 19, 2019). "As If by Design, Their Connection Was Inevitable". The New York Times. Retrieved September 14, 2020.
  20. ^ "Neri Oxman: the architect of tomorrow". Financial Times. February 28, 2020. Retrieved September 14, 2020.
  21. ^ Bailey, Spencer. "Episode 16 | Neri Oxman on Her Extraordinary Visions for the "Biological Age"". TimeSensitive.fm. Retrieved September 14, 2020.
  22. ^ "About Us". Pershing Square Foundation. Retrieved December 16, 2021.
  23. ^ "Person Overview ‹ Neri Oxman". MIT Media Lab. Retrieved September 8, 2023.
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