At Active Surfaces, our mission is bold: to unlock clean energy in places traditional solar can't reach. Our technology, born from nearly a decade of materials science research at MIT, enables ultra-lightweight, flexible solar modules that install on rooftops, walls, and industrial surfaces once considered off-limits. With our platform, the built environment itself becomes a source of clean power.
Since our founding, we've rapidly emerged as one of the most exciting startups in climate tech, merging breakthrough science with advanced manufacturing. Backed by leading global investors and strategic partners — including J-POWER, Sabanc, and Lendlease — and having already deployed a paid pilot with a Fortune 500 partner, we're scaling quickly to support a growing pipeline of deployments and commercial opportunities through 2028.
We're expanding our team to support this next phase of rapid growth. These key hires will join a world-class group with deep expertise in semiconductor and perovskite research, roll-to-roll manufacturing, and commercial leadership across the energy sector.
Let's be direct about what this is. We're a small team taking on a genuinely hard problem—and we hire accordingly. This is a high-intensity, early-stage environment where the pace is fast and the work you do is load-bearing: it directly determines whether we scale. We look for people who hold themselves to an exceptionally high bar, want deep ownership, and are energized rather than daunted by ambiguity. The work is demanding; the upside—in impact, in career growth, and in equity—is meant to match it. Few people get to materially change whether clean energy reaches places solar never could. If that's the room you want to be in, you'll be surrounded by people who feel the same.
How we work:
If you hold yourself to that bar and want to shape the future of solar alongside us, we want to meet you.
As a Device Engineer, you will be a key player in our Engineering Team efforts to advance solar thin-film devices. Your expertise in thin-film semiconductor materials, preferably in perovskites and organic photovoltaics (OPVs), will be vital in driving the development of our next-generation solar products. Reporting to the the Founder & Chief Technology Officer (CTO), you will take a leading role in developing, testing and vetting semi-conductor materials, to be integrated into our solar device products.
This role is eligible for visa sponsorship.
This job will be located full-time on site in Woburn, MA.
Conduct research and development activities to drive the innovation of next-generation solar thin-film devices
Prototype, test, and optimize semiconductor device architectures; semiconductor, metallic and dielectric thin-film materials, leveraging your expertise in thin-film, with a focus on Perovskites and OPVs
Prototype, test and optimize semiconductor and metallic and dielectric thin-film materials on novel manufacturing processes
Ensure the successful integration of new materials into working, high efficiency devices and vet overall manufacturing compatibility
Work closely with the rest of the Engineering Team to ensure successful integration of improvements into all research and manufacturing workflows
Analyze and interpret experimental data to guide decision-making and identify areas for improvement
Assist in the scaling-up of promising materials for manufacturing and commercialization
5-6 years of hands-on experience in device engineering, preferably in the field of solar energy, optoelectronics, or semiconductor device design (or a strong desire to learn)
Strong background in thin-film semiconductor technology and experience in the manufacturing, characterization and optimization of solar cells or similar heterojunction devices (e.g. OPVs, OLEDs, TFTs, or thin-film sensors)
Extensive laboratory experience, adept at planning and conducting experiments, analyzing data and driving optimization.
Experience working with a wide variety of R+D development tools used in optoelectronic thin-film device optimization (SEM, TEM, Powder XRD, GIWAX, AFM, XPS, PLQE, TRPL, UV-Vis, Fluorescence, Bright and Dark Field Microscopy, and a variety of electrical measurements)
Demonstrated ability to work with multiple materials and openness to exploring new material systems and manufacturing methods
Passionate about innovation and able to bring creativity to the development of solar devices
Eager to contribute and learn in a collaborative and dynamic and fast paced start-up environment
Experience with R2R coating technology (slot-die, blade coating or related)
Experience with cleanrooms and gloveboxes
Experience in using laser spectroscopy or building spectroscopic systems for studying and improving optoelectronic materials and systems
Experience with various coding languages (Python, MATLAB, LabView) along with knowledge or willingness to learn R+D electrical system control and scripting (eg. Keithley 2400/2600 GPIB (IEEE-488), Ethernet or USB control)
A willingness to ‘tinker’, or experiment to drive value and generate new ideas
Experience with setting electrical breadboard test systems
Experience with prototyping hardware (Arduino, Raspberry Pi, ESP32)
Experience with mechanical design (Solidworks, Autodesk) and prototyping (3D Printing or basic metal machining or CAM)
Experience with electrical layout (Altium, EZCad)
15 days vacation, 5 days personal leave (20 once seniority is reached)
Commute reimbursement (75%)
Wellness program ($50/month)
Cell Phone Reimbursement ($50/month)
401K Matching (up to 5%)