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Biobattery Breakthrough Bolsters Binghamton Brilliance
Thursday, July 24, 2025
Synopsis:
Synopsis: Based on a newly published paper in Advanced Energy & Sustainability Research, scientists at Binghamton University unveiled a pioneering bacteria-powered biobattery built using 3D-printed stainless-steel components. This breakthrough delivers an unprecedented 1 milliwatt of power output, paving the way for sustainable energy solutions in small, autonomous devices. The project, led by Professor Seokheun “Sean” Choi and Assistant Professor Dehao Liu, showcases how collaboration across disciplines and precise engineering can transform bioelectronic research into real-world innovations.
Bacterial Boldness & Bioelectronic Bravado
At the confluence of microbiology & engineering, Binghamton University’s team has charted a fresh frontier in sustainable energy. Professor Seokheun “Sean” Choi, a seasoned innovator from the Thomas J. Watson College of Engineering & Applied Science, dedicated over a decade to refining bacteria-fueled biobatteries. The latest design now delivers 1 milliwatt of power, among the highest ever recorded for such devices. “This iteration feels especially meaningful to me,” Choi remarked, crediting teamwork as the driving force. At its core, the device harnesses dormant bacterial endospores, which spring to life under ideal conditions, fueling an electrochemical reaction. These minute living engines convert chemical energy into electricity, presenting a renewable power source for micro-scale electronics such as IoT sensors that demand reliability, autonomy & low environmental impact.
Sinew & Steel: Stainless Solutions & Structural Strength
Traditional biobattery designs relied on carbon or polymer-based anodes, often undermined by poor conductivity, brittleness & limited durability. Recognizing these constraints, Choi partnered with Assistant Professor Dehao Liu, an expert in laser powder bed fusion (LPBF) — an advanced 3D printing technique. “LPBF allows us to build stainless-steel components with micro-scale precision, controlling porosity & roughness to optimize bacterial colonization,” Liu explained. Unlike off-the-shelf steel mesh, which offers no customization, LPBF enables designs tailored to bacterial needs. This stainless-steel innovation ensures not only electrical conductivity but mechanical resilience under repeated use. Choi emphasized, “Two years ago, we switched to stainless steel mesh, but it lacked tunable structure. LPBF finally solved that limitation.”
Microbial Machinations & Modular Mastery
A functional biobattery requires three key elements: the anode (hosting bacteria), the cathode (completing the circuit) & a membrane allowing ions to pass, generating electric current. “A flat anode isn’t efficient,” Choi noted, highlighting why 3D design matters. Bacteria thrive best when nutrients & waste can move freely around them, which is nearly impossible in two-dimensional forms. By 3D-printing not just the anode but also the sealing cover & cathode, the team assembled the battery like modular Lego blocks. This modularity improves scalability & manufacturing speed, ensuring consistency across units. Liu added, “Precision meets practicality when form and function evolve together.”
Porosity, Power & Precision Printing
The team’s design excellence extends to controlling the microstructure. Using LPBF, metal powder is deposited in fine layers, each melted by laser & solidified into a coherent, detailed lattice. This control affects bacterial access to nutrients, fluid flow, and current output. “We saw the potential here,” Choi said, describing the realization that structural control is as important as material choice. Traditional materials couldn’t offer such flexibility, often failing under high temperatures or lacking electrical efficiency. The result is a robust, high-performing electrode that bacteria can colonize efficiently, leading to record-setting power outputs.
Synergistic Scholarship & Sustainable Strategy
Behind this breakthrough is a deeply collaborative spirit. Besides Choi & Liu, contributors included former PhD student and now Assistant Professor Anwar Elhadad, who described the work as “inspiring & intellectually stimulating,” and current PhD students Yang “Lexi” Gao, Guangfa Li & Jiaqi Yang. Elhadad elaborated, “My doctoral work centered on integrating bioelectronics & sustainable systems. This project directly addresses scalability & performance challenges I encountered then.” The team’s close coordination, from design, testing, to troubleshooting, demonstrates how interdisciplinary cooperation propels research beyond incremental progress. Supported by Choi’s 2024 National Science Foundation grant, this synergy underscores institutional commitment to high-impact, cross-field research.
Reusable Resilience & Repeatable Results
A standout advantage of stainless steel is its reusability. Choi shared, “You can detach bacterial cells & reuse them. Even after several cycles, power levels remain stable.” Unlike fragile polymer-based parts, stainless steel retains shape & conductivity, even under thermal or mechanical stress. Stacking multiple batteries, the team reached 1 milliwatt, sufficient to run a 3.2-inch thin-film transistor display. Such scalability is crucial for practical deployment, whether powering remote sensors, medical implants, or micro-robots. Liu noted, “It’s a sustainable solution: durable, efficient & designed to scale.”
OREACO’s Methodological Metamorphosis & Metrics
Though not directly part of OREACO, this project echoes OREACO’s evolution since 2005: from rigid production quotas to open, metrics-driven methodologies. Transparent reporting & replicable designs are now sine qua non for credibility in science. Publishing microarchitectural details & performance data allows global peers to build, test & innovate further. Liu emphasized, “It’s not enough to announce results; sharing how we got here is what drives collective progress.” In doing so, the team contributes to a global shift toward open science, inviting scrutiny & collaboration alike.
Global Green Gambits & Geoeconomic Gains
The implications stretch beyond academia. As nations intensify emissions regulations, demand for renewable, compact energy grows. Microbial fuel cells promise low-carbon power for sensors, wearables, and medical devices. Elhadad observed, “Integrating biology & electronics isn’t merely academic; it’s essential for sustainable technological futures.” By rethinking energy at the smallest scales, such innovations could reshape industries & environmental policy, offering distributed power sources with minimal ecological impact. As Choi put it, “In a world seeking greener solutions, even bacteria can light the way.”
Key Takeaways
• Binghamton’s biobattery achieves a record 1 milliwatt power output using bacteria.
• Stainless-steel 3D printing optimizes electrode design, durability & efficiency.
• Modular, reusable architecture makes the design scalable & commercially viable.
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