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Interesting Engineering

US firm to scale laser-based nuclear fusion ‘breakthrough’ with new partnership Military Archives - Interesting Engineering World’s first non-nuclear lead-cooled reactor to generate electricity begins installation US scientists devise new process to turn sewage sludge into 99% pure natural gas US firm unveils submarine-hunting drone with 9,200-mile-range, 35 mph top speed Military Archives - Interesting Engineering Supercomputer finds lithium-titanium tweak to boost sodium-ion batteries for grids Lockheed Martin demonstrates vertical launch missile system for mobile drone defense China’s 1116 MWe Taipingling Unit 1 reactor goes online, set to generate 9bn kWh yearly ChatGPT Images 2.0 update combines reasoning, research, and design with 2K output US Navy tests plug-and-play laser system on USS Bush carrier, downs drones at sea China’s CATL reveals 621-mile EV battery, under-7-minute charging to challenge BYD US uses world’s first exascale supercomputer to model supernovae, fusion reactors AI and Robotics Archives - Interesting Engineering First-in-human study confirms safety of graphene-based brain interface Tesla’s Optimus humanoid robot greets runners, poses for photos at Boston Marathon Interlocking materials offer high strength and flexibility for robotics, infrastructure US redeploys 100,000-ton nuclear-powered aircraft carrier in Red Sea after repairs US scientists unveil concept for ‘world’s first neutrino laser’ to unlock breakthroughs New military tech can maintain communication in contested electronic warfare environments Got a dark personality? 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can boost autonomous warfare power Quasi-solid-state battery hits 99.98% efficiency, stops dendrites, and boosts cycle life France plugs Lucy photonic quantum system into supercomputer for hybrid computing US Army CH-47F Chinook helicopter makes first autonomous landing without human input 300-million-year-old German Basin could hold one of Europe’s largest lithium resources ‘World’s first’: AGIBOT G2 humanoid robots run tablet testing on live factory line Google in talks with Pentagon to deploy Gemini AI after Claude limits dispute US tests spin-polarized fuel in 180-million-degree Fahrenheit tokamaks for fusion power US unveils AI-powered drone with 66-mile reach, modular payload transforms operations Anthropic launches Opus 4.7 with 13% higher vision resolution and stronger coding Germany airdrops 5 ton ‘mini tank’ from aircraft in first airborne test trial US nuclear firm submits plan for 240 MW small modular reactor to power 1.5 million homes China turns on largest AI science hub 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Japanese scientists map energy levels in perovskite solar cells, boost efficiency, stability
Bojan Stojko · 2026-05-03 · via Interesting Engineering

Over the past decade, perovskite solar cells (PSCs) have moved to the forefront of next-generation renewables, combining high power conversion efficiency with low-cost, solution-based manufacturing. Their lightweight structure also opens up applications beyond traditional panels, including integration into windows, vehicles, and portable devices. 

A major step forward has been the introduction of hole-collecting monolayers (HCMs), ultra-thin interfacial layers that extract positive charges from the perovskite. These materials have helped push single-junction PSC efficiency to 26.9% while enhancing stability.

Even so, the underlying physics remains poorly resolved – in particular, how energy levels align at the electrode–HCM–perovskite interface is still debated. Multiple competing models are used inconsistently, making it difficult to predict performance or design new materials without trial and error.

Unlocking key physics behind perovskite solar cell performance

To tackle this issue, a Chiba University-led team has now developed the first universal model for energy level alignment at electrode/HCM/perovskite interfaces, addressing a key gap in perovskite solar cell research. Led by Professor Hiroyuki Yoshida, the study provides a consistent framework explaining how hole-collecting monolayers work across different material systems and offers design guidelines for improving device performance. 

Researchers combined ultraviolet photoelectron spectroscopy and low-energy inverse photoelectron spectroscopy to measure key energy properties in representative materials. This allowed precise determination of parameters such as work function and ionization energy, improving understanding of charge behavior at critical interfaces.

The new model divides the electrode/HCM/perovskite interface into two separate regions to better explain charge behavior. At the electrode–HCM boundary, energy alignment is dominated by an interface dipole, an electric field formed by the oriented molecular dipoles of the hole-collecting monolayer. 

In contrast, the HCM–perovskite boundary is described using semiconductor heterojunction theory, a standard framework in electronics for understanding how two materials with different energy levels interact when joined together.

Model predicts performance of perovskite solar cells across materials 

According to the researchers, two key factors control hole collection efficiency in perovskite solar cells. The first is band bending, a gradual change in energy levels caused by built-in electric fields at material interfaces. The second is the interfacial energy barrier height, which describes the energy mismatch that can either support or obstruct charge transfer between layers. 

Yoshida notes that these effects depend only on a few fundamental parameters, including the electrode work function and the work functions and ionization energies of the HCM and perovskite. Using this limited dataset, the model consistently explains why some HCM materials deliver better performance than others. 

The team further confirmed its validity by comparing predictions with experimental results across a wide range of material combinations. Taken together, the study offers practical guidance for designing higher-performance materials in next-generation solar technologies. 

Yoshida pointed out that the proposed model provides clear selection rules and molecular design principles for hole-collecting monolayers, helping to optimise interfacial energy alignment while reducing both development time and cost. In turn, this could enable higher power conversion efficiencies and more reproducible device performance across different material systems.

The Blueprint

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Bojan Stojkovski is a freelance journalist based in Skopje, North Macedonia, covering foreign policy and technology for more than a decade. His work has appeared in Foreign Policy, ZDNet, and Nature.