惯性聚合 高效追踪和阅读你感兴趣的博客、新闻、科技资讯
阅读原文 在惯性聚合中打开

推荐订阅源

Threat Intelligence Blog | Flashpoint
Threat Intelligence Blog | Flashpoint
C
CXSECURITY Database RSS Feed - CXSecurity.com
L
LINUX DO - 热门话题
S
Secure Thoughts
TaoSecurity Blog
TaoSecurity Blog
Security Archives - TechRepublic
Security Archives - TechRepublic
T
Threat Research - Cisco Blogs
AI
AI
B
Blog RSS Feed
S
Schneier on Security
雷峰网
雷峰网
Schneier on Security
Schneier on Security
Help Net Security
Help Net Security
Cloudbric
Cloudbric
L
LINUX DO - 最新话题
罗磊的独立博客
有赞技术团队
有赞技术团队
Recent Commits to openclaw:main
Recent Commits to openclaw:main
Apple Machine Learning Research
Apple Machine Learning Research
P
Proofpoint News Feed
酷 壳 – CoolShell
酷 壳 – CoolShell
The Hacker News
The Hacker News
博客园 - Franky
Attack and Defense Labs
Attack and Defense Labs
The Cloudflare Blog
Webroot Blog
Webroot Blog
Last Week in AI
Last Week in AI
Exploit-DB.com RSS Feed
Exploit-DB.com RSS Feed
博客园 - 叶小钗
美团技术团队
L
Lohrmann on Cybersecurity
T
The Blog of Author Tim Ferriss
The Last Watchdog
The Last Watchdog
T
Troy Hunt's Blog
H
Hackread – Cybersecurity News, Data Breaches, AI and More
Vercel News
Vercel News
Know Your Adversary
Know Your Adversary
O
OpenAI News
博客园 - 【当耐特】
Hacker News - Newest:
Hacker News - Newest: "LLM"
C
Cybersecurity and Infrastructure Security Agency CISA
让小产品的独立变现更简单 - ezindie.com
让小产品的独立变现更简单 - ezindie.com
www.infosecurity-magazine.com
www.infosecurity-magazine.com
freeCodeCamp Programming Tutorials: Python, JavaScript, Git & More
PCI Perspectives
PCI Perspectives
H
Heimdal Security Blog
I
InfoQ
GbyAI
GbyAI
T
Threatpost
C
Cisco Blogs

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? Psychologists can help you choose your career wisely Humidity boosts performance of 3D-printed nanogenerator instead of degrading it China demonstrates microwave beam that recharges drones in flight, continues power delivery Scientists run compact free-electron laser for eight hours, cracks FEL stability problem China’s PLA considers to use minelaying underwater drones to enforce Taiwan blockade: Report 1-ton sharks may struggle for survival in waters exceeding 62.6°F, study suggests US firm’s thorium nuclear fuel bundles move to manufacturing for commercial reactors Tesla hits 0% charge in remote Chilean desert as YouTuber uses hood-mounted solar Humanoid robot surpasses human world record in Beijing half-marathon, clocking 50:26 mins New method extracts maximum work from unknown quantum states using symmetry tricks US scientists’ new method can measure rare-earth elements in plants without destroying them 1,800-year-old feces reveal disease and hygiene linked to Roman Empire in Bulgaria Tankers come under fire as Iranian forces close Strait of Hormuz over US blockade Iran announces opening of Strait of Hormuz, Donald Trump says blockade to continue US scientists confirm altermagnetism in rust, unlock faster, low-power electronics Chinese scientists hit record 63 K in nickel superconductors without extreme pressure Songbird study reveals potential paths for human brain’s self-repair, neurogenesis US dumping ground that stores hundreds of drums with nuclear waste set to be cleaned up Chinese scientists’ diamond-based coating to boost data center cooling efficiency by 80% US’ 100,000-ton nuclear warship sets record with longest deployment since Vietnam War World-first eVTOL two-way transition flight test completed by Vertical Aerospace New electrolyte design improves solid-state battery conductivity by 2.7 times 50-year-old prediction confirmed as scientists spot darkness moving faster than speed of light Uncrewed underwater vehicle enters service in Australia, 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 in 2 months, using no US chips at all Relic black holes from cosmic ‘bounce’ may be dark matter shaping our Universe China releases first detailed map locating seabed minerals in eastern seabed China’s humanoid robot masters real-time tennis rallying with 90.9% return accuracy 10,000 suns: Black hole ‘dancing jets’ clocked at instantaneous power in a first US chemists turn natural gas into liquid fuel without high heat and pressures Australia’s major refinery burns for 13 hours, raises fresh fears over petrol supply crisis US firm can help faster, real time tracking of high-speed threats with infrared camera US Army trials unmanned Hunter Wolf robot with gun, radar in combat drills Massive cosmic test shows Newton and Einstein still explain gravity accurately Mondelez-backed startup debuts ‘world’s first’ chocolate bars made with cultured cocoa China trials deep sea actuator for cutting cables and pipelines at 3,500m depth ‘Missing house’: Exact location of Shakespeare’s only London property identified Boston Dynamics robot Spot now uses Gemini AI for reason-driven decision-making tasks 1,000x faster growth: China advances wafer-scale 2D chips with ultra-fast synthesis technique Chinese automaker’s new EV offers dual rear motors, 800V fast-charging capability Engineered wood converts sunlight into heat, supplies solar power even in darkness US to boost production of submarine-detection devices that could decide battle outcome Your roommate can change your gut: Study finds living together could change your biome China develops crystal that could enable GPS-free navigation for submarines, missiles Electric aircraft motor achieves 1,000 hp output with mere 207 pound weight China’s Geely touts methanol’s ’10x higher’ energy density over ‘too heavy’ lithium EVs Over 150 mergers reveal three distinct black hole origins, challenging unified model German firm’s car integrated with high-pressure hydrogen chambers that deliver 466-mile range 2,000-year-old wall paintings in Roman Hispania reveal ingenious house painters A reimagined Paul trap could help labs worldwide study antimatter beyond CERN China’s BYD debuts electric SUV with up to 590-mile range capability, 130.15 kWh battery Rare 2,000-hp Japanese WWII aircraft lifted out of ocean 80 years after combat Autonomous underwater mine warfare could become easier with French firm’s AI-powered system China showcases Y-30 plane to outperform ‘world’s best tactical transport aircraft in service’ NASA Artemis II crew splashes down safely on Earth after 694,000-mile roundtrip to moon UK firm to boost US Army’s battle firepower with new cannons for 155mm Howitzer Can defects boost light? Study shows flaws boost energy flow in organic semiconductors China could test floating rocket launch platform in South China Sea open waters: Reports Physicists unlock way to measure quantum entanglement inside real-world materials China ramps up new sodium-ion EV battery cathodes as cells survive 572°F safety tests US authorizes Mach 5+ Dark Eagle hypersonic missile for rapid global strike missions Solid-state nuclear battery claims 100-year power for ultra-low energy devices South Korea clears Saeul 3 nuclear reactor for criticality after fuel, heat tests Fake birds, real impact: Robotic decoys aim to revive grouse populations in US Faster, safer solid-state EV batteries unlocked with new US-made super polymer Microsoft out: France moves to replace Windows with Linux to cut reliance on US tech World’s first commercial-ready deep borehole nuclear waste disposal inches closer to reality New dual-frequency trap captures electrons and ions, pushing antihydrogen beyond CERN Military Archives - Interesting Engineering
New solar cells hit 30% efficiency and still work after 1,000 hours of power
Georgina Jed · 2026-05-07 · via Interesting Engineering

The team developed a chemical-hardness strategy to control crystal growth.

All-perovskite tandem solar cells could transform solar energy.

All-perovskite tandem solar cells could transform solar energy.Getty Images

Chinese scientists have pushed perovskite tandem solar cells past the critical 30 percent efficiency mark after developing a new way to control how the materials crystallize during manufacturing.

The research team was led by Ge Ziyi, PhD, and Liu Chang, PhD, from the Ningbo Institute of Materials Technology and Engineering (NIMTE), under the Chinese Academy of Sciences (CAS). The team hit a certified power conversion efficiency of 30.3 percent in rigid all-perovskite tandem solar cells, and 28 percent in flexible versions.

They believe that the achievement can speed up the development of lightweight, high-efficiency solar technologies that are far cheaper and easier to manufacture than traditional silicon-based panels.

“The findings provide a pathway to simultaneously improve efficiency and durability in both rigid and flexible devices, thereby advancing the development of lightweight, scalable photovoltaic technologies,” the scientists pointed out.

Better solar cells

All-perovskite tandem solar cells are considered among the most promising PV (photovoltaic) technologies, because they can harvest sunlight more efficiently than conventional single-junction solar cells. They can also be produced using low-temperature solution processing, potentially reducing manufacturing costs.

However, asynchronous crystallization remains one of the biggest challenges in multicomponent perovskite films. During production, different parts of the films often crystallize at different rates, creating structural defects and compositional inconsistencies that reduce efficiency and long-term stability.

Synchronized crystallization drives efficient rigid and flexible perovskite tandems.
Image credit: NIMTE

To address the issue, the team created an additive design strategy based on hard-soft acid-base (HSAB) theory, which predicts how acids and bases interact. They introduced carefully selected additives into both wide-bandgap and narrow-bandgap perovskite layers to synchronize nucleation and crystal growth.

This not only suppressed uneven vertical phase distribution but also improved film uniformity across the devices. The team used difluoro(oxalato)borate (DFOB⁻) additives for wide-bandgap perovskites and tetrafluoroborate (BF4⁻) for narrow-bandgap layers. 

Structural and optical analyses showed that the method promoted homogeneous crystal growth and prevented halide redistribution. This commonly causes defects and stress accumulation inside the solar cells.

A stronger performance

The improvements also boosted the overall performance of the tandem devices. The efficiency of wide-bandgap perovskite solar cells increased from 18.5 to 20.1 percent, while narrow-bandgap devices improved from 21.6 to 23.3 percent.

What’s more, when integrated into monolithic two-terminal tandem architectures, the optimized rigid tandem device reached a peak efficiency of 30.3 percent, with an open-circuit voltage of 2.16 volts (V) and a fill factor of 85.2 percent. Moreover, the flexible tandem cells also delivered strong results. They achieved 28.2 percent efficiency, with a certified value of 28.0 percent.

The devices also featured strong operational stability. This is the most significant and high-stakes bottleneck for the commercial adoption of perovskite solar cells (PSCs). 

The optimized rigid device retained 92 percent of its initial efficiency after 1,000 hours of maximum power point tracking. At the same time, the flexible tandems maintained 95.2 percent of their original efficiency after 10,000 bending cycles.

The result highlighted their potential for wearable electronics, lightweight power systems, and flexible solar applications. “This study establishes a general chemical principle for regulating crystallization in compositionally complex perovskite systems,” the researcher concluded in a press release.

The study has been published in the journal Nature Nanotechnology.

The Blueprint

Get the latest in engineering, tech, space & science - delivered daily to your inbox.

Based in Skopje, North Macedonia. Her work has appeared in Daily Mail, Mirror, Daily Star, Yahoo, NationalWorld, Newsweek, Press Gazette and others. She covers stories on batteries, wind energy, sustainable shipping and new discoveries. When she's not chasing the next big science story, she's traveling, exploring new cultures, or enjoying good food with even better wine.