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Alüminyum-ion Piller
« : Nisan 14, 2015, 14:49:15 »
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Aluminum battery from Stanford offers safe alternative to conventional batteries
April 6, 2015

By Mark Shwartz

 Stanford University scientists have invented the first high-performance aluminum battery that’s fast charging, long lasting and inexpensive. Researchers say the new technology offers a safe alternative to many commercial batteries in wide use today.

 “We have developed a rechargeable aluminum-ion battery that may replace existing storage devices, such as alkaline batteries, which are bad for the environment, and lithium-ion batteries, which occasionally burst into flames,” said Hongjie Dai, a professor of chemistry at Stanford. “Our new battery won’t catch fire, even if you drill through it.”

 Dai and his colleagues describe their novel aluminum-ion battery in the April 6 advanced online edition of the journal Nature.

 Aluminum has long been an attractive material for batteries, mainly because of its low cost, low flammability and high-charge storage capacity. For decades, researchers have tried unsuccessfully to develop a commercially viable aluminum-ion battery.  A key challenge has been finding materials capable of producing sufficient voltage after repeated cycles of charging and discharging.



Stanford postdoctoral scholar Yingpeng Wu and colleagues have created a flexible, non-flammable aluminum battery that can fully charge in about a minute (Photo: Mark Shwartz).

Graphite cathode

 An aluminum-ion battery consists of two electrodes: a negatively charged anode made of aluminum and a positively charged cathode.

 “People have tried different kinds of materials for the cathode,” Dai said. “We accidentally discovered that a simple solution is to use graphite, which is basically carbon. In our study, we identified a few types of graphite material that give us very good performance.”

 For the experimental battery, the Stanford team placed the aluminum anode and graphite cathode, along with an ionic liquid electrolyte, inside a flexible polymer-coated pouch.

 “The electrolyte is basically a salt that’s liquid at room temperature, so it’s very safe,” said Stanford graduate student Ming Gong, co-lead author of the Nature study.

 Aluminum vs. lithium

 Aluminum batteries are safer than conventional lithium-ion batteries used in millions of laptops and cell phones today, Dai added.

 “Lithium-ion batteries can be a fire hazard,” he said.

 As an example, he pointed to recent decisions by United and Delta airlines to ban bulk lithium-battery shipments on passenger planes.

 “In our study, we have videos showing that you can drill through the aluminum battery pouch, and it will continue working for a while longer without catching fire,” Dai said. “But lithium batteries can go off in an unpredictable manner  – in the air, the car or in your pocket. Besides safety, we have achieved major breakthroughs in aluminum-battery performance.”

 One example is ultra-fast charging. Smartphone owners know that it can take hours to charge a lithium-ion battery. But the Stanford team reported “unprecedented charging times” of down to 1 minute with the aluminum prototype.

 Durability is another important factor. Aluminum batteries developed at other laboratories usually died after just 100 charge-discharge cycles. But the Stanford battery was able to withstand more than 7,500 cycles without any loss of capacity. “This was the first time an ultra-fast aluminum-ion battery was constructed with stability over thousands of cycles,” the authors wrote.

 By comparison, a typical lithium-ion battery lasts about 1,000 cycles.

 “Another feature of the aluminum battery is flexibility,” Gong said. “You can bend it and fold it, so it has the potential for use in flexible electronic devices. Aluminum is also a cheaper met



al than lithium.”

 Applications

 In addition to small electronic devices, aluminum batteries could be used to store renewable energy on the electrical grid, Dai said. 

 “The grid needs a battery with a long cycle life that can rapidly store and release energy,” he explained. “Our latest unpublished data suggest that an aluminum battery can be recharged tens of thousands of times. It’s hard to imagine building a huge lithium-ion battery for grid storage.”

The new battery has electrodes made of aluminum (Al) and nano-size carbon sheets called graphite (Graphic: Meng-Chang Lin and Hongjie Dai, Stanford).

 Aluminum-ion technology also offers an environmentally friendly alternative to disposable alkaline batteries, Dai said.

 “Millions of consumers use 1.5-volt AA and AAA batteries,” he said.  “Our rechargeable aluminum battery generates about 2 volts of electricity. That’s higher than anyone has achieved with aluminum."

But more improvements will be needed to match the voltage of lithium-ion batteries, Dai added.

"Our battery produces about half the voltage of a typical lithium battery," he said. "But improving the cathode material could eventually increase the voltage and energy density. Otherwise, our battery has everything else you'd dream that a battery should have: inexpensive electrodes, good safety, high-speed charging, flexibility and long cycle life. I see this as a new battery in its early days. It's quite exciting."

Other co-lead authors of the study from Stanford are visiting scientists Meng-Chang Lin from the Taiwan Industrial Technology Research Institute and Bingan Lu from Hunan University, and postdoctoral scholar Yingpeng Wu. Other authors are Di-Yan Wang, Mingyun Guan, Michael Angell, Changxin Chen and Jiang Yang from Stanford; and Bing-Joe Hwang from National Taiwan University of Science and Technology.

Principal support for the research was provided by the U.S. Department of Energy, the Taiwan Industrial Technology Research Institute, the Stanford Global Climate and Energy Project, the Stanford Precourt Institute for Energy and the Taiwan Ministry of Education.

- Kaynak: https://energy.stanford.edu/news/aluminum-battery-stanford-offers-safe-alternative-conventional-batteries#sthash.6u2V0QLM.dpuf
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Özet:
  • Alkaline gibi çevreye zararlı değil, Li gibi yanıcı değil
  • 6 Nisan 2015 tarihinde Nature (Oha!) dergisinde yayınları çıkmış
  • Ucuz yollu, yanmayan (delsen dahi yanmıyor), yüksek şarj kapasitesine sahip
  • Grafit katot Al Anot malzemeden yapılmış (Li-ion tam tersi Li Katot, Grafit Anot)
  • 1 saatte şarj olabilme 7500 çevrim ömrü !!! (Li 1 saat 1000 çevrim)
  • 2V anma gerilimi üretebiliyor (NiMh: 1.2V, Alkaline: 1.5V, Li-ion:3.7V)
  • Zaten anma gerilimi de Li gibi olsa rüya gibi olur diyorlar :)
  • Daha geliştirme aşamasında olan bir pil

Bir çok mobil uygulamanın önünü açacak bir çalışma. Eğer başarıya ulaşır ve ticarileşirse elektrikli araçlardan cep telefonlarına kadar ezber bozan ürünler geliştirilebilir...
Sony Alpha ILCE-7 (3039257) 
Voigtländer Ultron 28mm F2 (8110465) 
Zeiss Sonnar T* FE 1,8/55 ZA (45701063) 
Tele-Elmarit-M 1:2.8/90 (2968446) 
Elmar-M 1:4/135 (1769055) 
http://www.flickr.com/photos/halpaslan

Ynt: Alüminyum-ion Piller
« Yanıtla #1 : Nisan 15, 2015, 17:48:59 »
eskiden philips xenium batarya teknolojisi olan telefonlar vardı 2 haftadan uzun süre şarjı dayanırdı. bu teknoloji ile yeni akıllı telefonlarda benzer şekilde olurlar umarım.

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Ynt: Alüminyum-ion Piller
« Yanıtla #2 : Nisan 15, 2015, 21:01:34 »
Anladığım kadarıyla hem rahatça şekil verilebilen hem de çok kısa zamanda şarj (şarz mıydı yoksa) edilebilen pillere kavuşacağız.  Uzun ömür konusunda philips kadar ileri gidilecek ışık henüz yok,  o biraz da ekran teknolojisine bağlı çünkü en büyük harcama ekranlar.
Niyet İyi, Akibet İyi

Ynt: Alüminyum-ion Piller
« Yanıtla #3 : Nisan 15, 2015, 22:00:10 »
Bu piller enerji yoğunluğundan ziyade hızlı şarj ile Öne çıkıyor.
Geliştiricilerinin de dediği gibi zaten enerji yoğun olsalar rüya gibi olurdu .
Ancak hızlı şarj en önemli etmenlerden birisi. Düşünün piliniz belki 12 saat gitmiyor ama 1dakika yetiyor tamamen Dolması için
Sony Alpha ILCE-7 (3039257) 
Voigtländer Ultron 28mm F2 (8110465) 
Zeiss Sonnar T* FE 1,8/55 ZA (45701063) 
Tele-Elmarit-M 1:2.8/90 (2968446) 
Elmar-M 1:4/135 (1769055) 
http://www.flickr.com/photos/halpaslan