Highlights
Highlights
Essence, with HeartEarth Lab
Aided in designing for Örsjö Belysning during and after my internship with Marie-Louise Hellgren of HeartEarth Lab in Stockholm, Sweden.
Released in June of 2024 and is currently in production.
I was involved throughout the process doing market research, mockups, sketching, 3D modelling, renders, technical drawings, and more.
After my internship ended, I did short term work for this project during the next couple years mainly updating technical drawings for the factory.
This lamp has since won Plaza Interiör's 2024 Hederspris in the category "Hållbart" and has been longlisted in Dezeen's 2025 Sustainable Design category.
Crescent Dining Chair
Designed for Junior Studio I at the University of Oregon with the brief: How might we create a sustainable chair?
This dining chair is flat-pack, made of locally-sourced lumber, and features a seat comprised of 100% wood waste collected from the school's woodworking shop's waste stream. The back is laminated plywood to reduce waste from potential CNC manufacturing.
Final dimensions are:
762mm overall height
455mm seat height
420mm seat width
415mm seat depth
6.7kg weight
5 Rings Project
A sustainability research project conducted with 10 other students with the University of Oregon to be showcased at the Olympic Track Trials in 2024. Posed the query: which jewelry manufacturing method(s) are the most sustainable in the short term and long term
Aside from designing and manufacturing 5 identical rings using different methods, we split into teams to take care of different aspects of the whole project.
My team of 3 designed and built the physical display complete with 3 display cases with internal rotating display tables as well as a central informational column.
Displayed in Eugene OR, Eindhoven NL, and Cologne DE. Was a finalist for the Green Product Awards in 2025.
Hurler, with SOOR
Designed in collaboration with Special Olympics Oregon, Hurler is an adaptive tool to help those with cerebral palsy and other mobility-limiting conditions play competitive cornhole more independently.
The main outlined constraint was that the mechanism had to be completely analog. My goals were to ensure the device could throw the beanbags far enough to comply with the standard game rules, and to allow for adjustability in angles, arcs, and power of throw.
With this device, the user is able to play in standard games against able-bodied players instead of needing a separate league for the around 12 individuals with CP in the state of Oregon who play competitively with the Special Olympics.
