Scientists Invent a Paper Battery—Just Add Water

2022-07-30
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Discarded electronics are piling up fast, pushing researchers to explore creative ways to reduce the resulting trash, known as e-waste. Now one team has crafted a water-activated disposable battery made of paper and other sustainable materials.

The wires, screens and batteries that make up our devices—not to mention the plastic, metal and other materials that encase them—are filling up landfills with hazardous debris. Some e-waste is relatively large: old flip phones, air conditioners and radios, to name just a few common items. Other e-waste is more insidious, such as electronic single-use medical diagnostic kits, environmental sensors and smart labels that contain disposable batteries and other equipment.

“It’s these small batteries that are big problems,” says Dele Ogunseitan, a public health professor at the University of California, Irvine, and a green technology researcher and adviser for major technology companies, who was not involved in the development of the paper battery. “Nobody really pays attention to where they end up.”

Researchers at the Cellulose & Wood Materials Laboratory at the Swiss Federal Laboratories for Materials Science and Technology (Empa) are working to address this overlooked problem. This week they published a paper in Scientific Reports describing a new water-activated paper battery they developed out of environmentally friendly materials. Such a device could eventually present a sustainable alternative to the more harmful batteries that are common in low-power devices.

The new paper battery has the same key components as standard batteries but packages them differently. Like a typical chemical battery, it has a positively charged side called a cathode, a negatively charged side called an anode and a conductive material called an electrolyte between the two. A traditional battery’s components are encased in plastic and metal; in the new battery, the anode and cathode are inks printed onto the front and back of a piece of paper. That paper is infused with salt, which dissolves when the paper is dampened with water. The resulting saltwater solution acts as the electrolyte.

Sustainable materials were a prerequisite for the researchers, who only considered nontoxic and abundant ingredients to create their device. “We were fairly confident that we would have something that would work in the end, but developing these materials and ink systems is far from trivial,” says Gustav Nyström, head of the Cellulose & Wood Materials Laboratory and senior author of the study. After trying hundreds of formulations for the different components, the scientists settled on a graphite ink to make the cathode, a zinc ink for the anode and salt-infused paper to create the electrolyte. When the paper is dry, the battery is shelf-stable. Add just a couple of drops of water, however, and the engrained salt dissolves, allowing electrons to flow. After the paper is moistened, it takes about 20 seconds for the battery to activate. At that point, it produces a stable 1.2 volts of electricity until the paper dries out. (For comparison, an AA battery provides 1.5 volts.) When the researchers rewet the paper, the battery produced 0.5 volt for more than an hour.

Although the researchers demonstrated that their battery could power an alarm clock, disposable paper batteries are unlikely to replace standard AAs on store shelves. Instead Nyström envisions a future where these batteries are embedded in diagnostic tests and environmental sensors, ideally with other sustainable components such as screens and packaging. That future may not be so far off.

It is hard to predict a time line for manufacturing such items at scale, but Nyström says he is in contact with potential industry partners and believes these batteries could make their way into products within the next two to five years. “The performance that you see on this device, I think, is sufficient for a lot of these applications already,” he says. It is mostly a matter of scaling up production and integrating the batteries into systems such as diagnostic tests and environmental sensors.

Crucially, Nyström says his team created the battery without compromising on sustainability criteria. “This is work that really starts with the development of sustainable materials,” he explains. From there, he says, “I think we were able to create something that is quite useful.”

参考译文
科学家发明了一种纸电池——只要加水
废弃的电子产品堆积得很快,这促使研究人员探索创造性的方法来减少由此产生的垃圾,即电子垃圾。现在,一个团队已经制作了一种由纸和其他可持续材料制成的水激活一次性电池。构成我们设备的电线、屏幕和电池——更不用说塑料、金属和其他包裹它们的材料——正在用危险的碎片填满垃圾填埋场。一些电子垃圾比较大:旧翻盖手机、空调和收音机,这只是一些常见的物品。其他电子垃圾更加隐蔽,如一次性电子医疗诊断包、环境传感器和包含一次性电池和其他设备的智能标签。加州大学尔湾分校的公共卫生教授Dele Ogunseitan说:“这些小型电池才是大问题。”他是一名绿色技术研究员,也是大型科技公司的顾问,但他没有参与这种纸电池的开发。“没有人真正关注他们最终会去哪里。”纤维素大学的研究人员;瑞士联邦材料科学与技术实验室(Empa)的木材材料实验室正在努力解决这个被忽视的问题。本周,他们在《科学报告》上发表了一篇论文,描述了他们用环保材料开发的一种新型水活化纸电池。这样的设备最终可能会成为一种可持续的替代品,取代在低功率设备中常见的更有害的电池。这种新型纸电池的关键部件与标准电池相同,但包装不同。就像一个典型的化学电池,它有一个带正电荷的一面称为阴极,一个带负电荷的一面称为阳极,在两者之间有一种导电材料称为电解质。传统电池的组件由塑料和金属包裹;在这种新型电池中,阳极和阴极是印在纸正面和背面的墨水。这种纸被注入了盐,当纸被水浸湿时盐就会溶解。由此产生的盐水溶液充当电解质。可持续材料是研究人员的先决条件,他们只考虑了无毒和丰富的成分来创造他们的设备。“我们相当有信心,我们最终会有一些可行的东西,但开发这些材料和墨水系统远非微不足道,”纤维素&木材材料实验室的资深作者。在尝试了数百种不同成分的配方后,科学家们决定用石墨墨水来制造阴极,用锌墨水来制造阳极,用盐浸纸来制造电解液。当纸张干了,电池就可以搁在架子上。然而,只要加入几滴水,根深蒂固的盐就会溶解,让电子流动。纸张湿润后,电池启动时间约为20秒。在这一点上,它会产生稳定的1.2伏特电流,直到纸张干燥。(作为比较,一节AA电池提供1.5伏电压。)当研究人员重新润湿纸张时,电池在一个多小时内产生0.5伏电压。虽然研究人员证明他们的电池可以为闹钟供电,但一次性纸电池不太可能取代商店货架上的标准aa电池。相反,Nyström设想的未来是,这些电池被嵌入诊断测试和环境传感器,理想情况下与其他可持续的组件,如屏幕和包装。这样的未来或许并不遥远。 很难预测大规模生产这些产品的时间线,但Nyström表示,他正在与潜在的行业合作伙伴联系,相信这些电池可以在未来两到五年内投入生产。他说:“我认为,你在这款设备上看到的性能已经足以满足很多应用程序的需求。”这主要是为了扩大生产规模,并将电池集成到诊断测试和环境传感器等系统中。至关重要的是,Nyström表示,他的团队在创造电池时没有损害可持续性标准。他解释说:“这项工作真正始于可持续材料的开发。”从那时起,他说道:“我认为我们能够创造出一些非常有用的东西。”
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