Home Artificial Intelligence Q&A: A blueprint for sustainable innovation | MIT Information

Q&A: A blueprint for sustainable innovation | MIT Information

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Q&A: A blueprint for sustainable innovation | MIT Information



Atacama Biomaterials is a startup combining structure, machine studying, and chemical engineering to create eco-friendly supplies with a number of functions. Keen about sustainable innovation, its co-founder Paloma Gonzalez-Rojas SM 15, PhD 21 highlights right here how MIT has supported the mission via a number of of its entrepreneurship initiatives, and displays on the function of design in constructing a holistic imaginative and prescient for an increasing enterprise.

Q: What function do you see your startup taking part in within the sustainable supplies area?

A: Atacama Biomaterials is a enterprise devoted to advancing sustainable supplies via state-of-the-art expertise. With my co-founder Jose Tomas Dominguez, we’ve been engaged on creating our expertise since 2019. We initially began the corporate in 2020 underneath one other identify and acquired Sandbox funds the subsequent 12 months. In 2021, we went via The Engine’s accelerator, Blueprint, and adjusted our identify to Atacama Biomaterials in 2022 throughout the MITdesignX program. 

This expertise we’ve developed permits us to create our personal knowledge and materials library utilizing synthetic intelligence and machine studying, and serves as a platform relevant to numerous industries horizontally — biofuels, organic medication, and even mining. Vertically, we produce cheap, regionally sourced, and environmentally pleasant bio-based polymers and packaging — that’s, naturally compostable plastics as a flagship product, together with AI merchandise.

Q: What motivated you to enterprise into biomaterials and located Atacama?

A: I’m from Chile, a rustic with a stupendous, wealthy geography and nature the place we will see all the issues stemming from business, waste administration, and air pollution. We named our firm Atacama Biomaterials as a result of the Atacama Desert in Chile — one of many locations the place you may finest see the celebrities on this planet — is changing into a plastic dump, as many different locations on Earth. I care deeply about sustainability, and I’ve an emotional attachment to cease these issues. Contemplating that manufacturing accounts for 29 % of world carbon emissions, it’s clear that sustainability has a job in how we outline expertise and entrepreneurship, in addition to a socio-economic dimension.

After I first got here to MIT, it was to develop software program within the Division of Structure’s Design and Computation Group, with MIT professors Svafa Gronfeldt as co-advisor and Regina Barzilay as committee member. Throughout my PhD, I studied machine-learning strategies simulating pedestrian movement to know how individuals transfer in area. In my work, I’d use plenty of plastics for 3D printing and I couldn’t cease enthusiastic about sustainability and local weather change, so I reached out to materials science and mechanical engineering professors to look into biopolymers and degradable bio-based supplies. That is how I met my co-founder, as we have been each working with MIT Professor Neil Gershenfeld. Collectively, we have been a part of one of many first groups on this planet to 3D print wooden fibers, which is troublesome — it’s gradual and costly — and shortly pivoted to sustainable packaging. 

I then received a fellowship from MCSC [the MIT Climate and Sustainability Consortium], which gave me freedom to discover additional, and I finally acquired a postdoc in MIT chemical engineering, guided by MIT Professor Gregory Rutledge, a polymer physicist. This was surprising in my profession path. Profitable Nucleate Eco Monitor 2022 and the MITdesignX Innovation Award in 2022 profiled Atacama Biomaterials as one of many rising startups in Boston’s biotechnology and climate-tech scene.

Q: What’s your course of to develop new biomaterials?

A: My PhD analysis, coupled with my background in materials improvement and molecular dynamics, sparked the conclusion that rules I studied simulating pedestrian movement might additionally apply to molecular engineering. This connection could appear unconventional, however for me, it was a pure development. Early in my profession, I developed an instinct for supplies, understanding their mechanics and physics.

Utilizing my expertise and abilities, and leveraging machine studying as a expertise leap, I utilized an analogous conceptual framework to simulate the trajectories of molecules and discover potential functions in biomaterials. Making that parallel and shift was wonderful. It allowed me to optimize a state-of-the-art molecular dynamic software program to run twice as quick as extra conventional applied sciences via my algorithm introduced on the Worldwide Convention of Machine Studying this 12 months. This is essential, as a result of this type of simulation normally takes every week, so narrowing it down to 2 days has main implications for scientists and business, in materials science, chemical engineering, pc science and associated fields. Such work enormously influenced the inspiration of Atacama Biomaterials, the place we developed our personal AI to deploy our supplies. In an effort to mitigate the environmental impression of producing, Atacama is focusing on a 16.7 % discount in carbon dioxide emissions related to the manufacturing strategy of its polymers, via using renewable vitality. 

One other factor is that I used to be educated as an architect in Chile, and my diploma had a design element. I feel design permits me to know issues at a really excessive degree, and the way issues interconnect. It contributed to creating a holistic imaginative and prescient for Atacama, as a result of it allowed me to leap from one expertise or self-discipline to a different and perceive broader functions on a conceptual degree. Our design method additionally meant that sustainability got here to the middle of our work from the very starting, not only a plus or an added price.

Q: What was the function of MITdesignX in Atacama’s improvement?

A: I’ve recognized Svafa Grönfeldt, MITdesignX’s school director, for nearly six years. She was the co-advisor of my PhD, and we had a mentor-mentee relationship. I love the truth that she created an area for individuals excited about enterprise and entrepreneurship to develop throughout the Division of Structure. She and Govt Director Gilad Rosenzweig gave us improbable recommendation, and we acquired important assist from mentors. For instance, Daniel Tsai helped us with mental property, together with a vital patent for Atacama. And we’re nonetheless in contact with the remainder of the cohort. I actually like this “design your organization” method, which I discover fairly distinctive, as a result of it provides us the chance to mirror on who we wish to be as designers, technologists, and entrepreneurs. Finding out person insights additionally allowed us to know the broad applicability of our analysis, and align our imaginative and prescient with market calls for, in the end shaping Atacama into an organization with a holistic perspective on sustainable materials improvement.

Q: How does Atacama method scaling, and what are the rapid subsequent steps for the corporate?

A: After I take into consideration carrying out our imaginative and prescient, I really feel actually impressed by my 3-year-old daughter. I would like her to expertise a world with timber and wildlife when she’s 100 years outdated, and I hope Atacama will contribute to such a future.

Going again to the designer’s perspective, we designed the entire course of holistically, from feedstock to materials improvement, incorporating AI and superior manufacturing. Having proved that there’s a demand for the supplies we’re creating, and having examined our merchandise, manufacturing course of, and expertise in vital environments, we at the moment are able to scale. Our degree of technology-readiness is corresponding to the one utilized by NASA (degree 4).

We have now proof of idea: a biodegradable and recyclable packaging materials which is cost- and energy-efficient as a clear vitality enabler in large-scale manufacturing. We have now acquired pre-seed funding, and are sustainably scaling by making the most of out there sources all over the world, like repurposing equipment from the paper business. As introduced within the MIT Industrial Liaison and STEX Program’s current Sustainability Convention, not like our rivals, we’ve cost-parity with present packaging supplies, in addition to low-energy processes. And we additionally proved the demand for our merchandise, which was an essential milestone. Our subsequent steps contain strategically increasing our manufacturing capabilities and analysis services and we’re at the moment evaluating constructing a manufacturing unit in Chile and establishing an R&D lab plus a producing plant within the U.S.