Researchers at Guangdong College of Expertise have developed a brand new technique to construct highly effective, compact vitality storage units—referred to as thin-film supercapacitors (TFSCs)—with out utilizing metallic elements or conventional separators. Their tiny 3.8 cm³ system is even able to outputting 200 volts—sufficient to gentle 100 LEDs for 30 seconds or a 3-watt bulb for 7 seconds.
The tactic, detailed in an article published within the Worldwide Journal of Excessive Manufacturing, might assist energy next-generation microelectronic units, particularly these utilized in harsh or space-constrained environments.
On the coronary heart of the know-how is an easy however efficient laser course of. The researchers used a CO₂ laser to remodel sheets of economic polyimide (PI) paper into 3D graphene—a wonderful materials for storing and conducting electrical energy. This graphene paper performs a number of roles: it acts because the energy-storing electrode, {the electrical} connector, and the structural help, all of sudden.
“Conventional supercapacitors depend on cumbersome metallic elements and complicated wiring to attach many cells collectively,” stated Prof. Huilong Liu, corresponding creator on the paper and affiliate professor in GDUT’s State Key Laboratory of Precision Digital Manufacturing Expertise and Gear. “Our technique simplifies the supplies and the design whereas nonetheless attaining excessive voltage and secure efficiency.”
The researchers rigorously studied how laser parameters—equivalent to scan density, energy, and pace—have an effect on the graphene’s construction and conductivity. With these optimizations, they had been capable of constantly produce graphene sheets with low electrical resistance and powerful electrochemical properties.
Within the new design, the hydrogel electrolyte doubles as a separator, and the PI paper itself defines the form of every cell. The self-supporting graphene layers enable all elements to be stacked tightly, making the system compact with out sacrificing efficiency. Importantly, all of the TFSCs—from a single cell to the total 160-cell stack—confirmed constant efficiency.
“The most important benefit is that we do not want metallic present collectors or exterior connectors,” stated co-author Prof. Yun Chen. “By eradicating pointless supplies and simplifying meeting, we will scale as much as high-voltage outputs whereas protecting the system ultra-compact.”
The group plans to proceed bettering the vitality density and voltage vary of those units. They hope the know-how can in the future energy wearable sensors, versatile electronics, and different small-scale methods that want dependable vitality in harsh or space-limited circumstances.
Extra info:
Huilong Liu et al, 3D graphene paper-based tandem metal-free thin-film supercapacitors with built-in 200 V output, Worldwide Journal of Excessive Manufacturing (2025). DOI: 10.1088/2631-7990/add227
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Steel-free supercapacitor stack delivers 200 volts from simply 3.8 cm³ (2025, July 23)
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