battery$7183$ - translation to greek
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battery$7183$ - translation to greek

TYPE OF BATTERY
Plastic battery; Polymer-Based Battery; Organic battery
  • Charge/discharge redox reaction of thioether pendant group.
  • Charge and discharge of a Li/radical polymer battery, consisting of a Li anode and nitroxide radical group polymer. This is an example of a semi polymer based battery, where only one electrode is polymeric.
  • conductive polymers]]. In these polymers, the redox group is embedded into the backbone.
  • This graph is a schematic representation of the problematic sloping discharge curve (blue) of a [[conductive polymer]] battery, compared to the voltage plateau of a non-conjugated or organic radical polymer batter discharge curve (green).
  • In a polystyrene chain, the phenyl groups are the pendant groups attached to the polymer's backbone chain.

battery      
n. πυροβολαρχία, συστοιχία, μπαταρία, ηλεκτρική συστοιχία, συσωρευτής, κτύπημα, βιαιοπραγία
storage battery         
  • [[BYD e6]] taxi. Recharging in 15 Minutes to 80 percent
  • Bloated lithium ion batteries, possibly damaged by faulty monitoring electronics
  • Positive and negative electrode vs. anode and cathode for a secondary battery
  • A common consumer battery charger for rechargeable AA and AAA batteries
  • Gigafactory]]).
  • [[Lithium ion battery]] monitoring electronics (over- and discharge protection)
  • lithium polymer]] [[mobile phone]] battery
  • thumb
  • A [[solar-powered charger]] for rechargeable AA batteries
TYPE OF ELECTRICAL BATTERY WHICH CAN BE CHARGED, DISCHARGED INTO A LOAD, AND RECHARGED MANY TIMES; DEVICE THAT STORES ENERGY
Rechargeable batteries; Secondary cell; Reversible cell; Reverse charging; Reverse Charging; Secondary battery; Secondary batteries; Storage batteries; Storage battery; Rechargable battery; Rechargeable; Akku; Accu (battery); Recharging batteries; Replacing batteries; Photovoltaic storage batteries; Rechargeables; Reusable battery; Rechargable batteries; Rechargable; Rechargeable cell; Battery recharging; Rechargeable Battery; Experimental rechargeable battery types; Comparison of rechargeable battery technologies; Chargeable battery; Solar battery; External battery; Rechargeable energy storage systems; Rechargeable energy storage system; Recharge (battery); Alternatives to rechargeable batteries; Applications of rechargeable batteries
ηλεκτρική συστοιχία
assault and battery         
WIKIMEDIA DISAMBIGUATION PAGE
Assault & Battery; Assault & Battery (album); Assault and battery (disambiguation); Assault And Battery; Assault and Battery (album); Assault and Battery
κακοποίηση

Definition

Voltaic Electricity
Electricity of low potential difference and large current intensity; electricity such as produced by a voltaic battery; current or dynamic electricity as opposed to static electricity.

Wikipedia

Polymer-based battery

A polymer-based battery uses organic materials instead of bulk metals to form a battery. Currently accepted metal-based batteries pose many challenges due to limited resources, negative environmental impact, and the approaching limit of progress. Redox active polymers are attractive options for electrodes in batteries due to their synthetic availability, high-capacity, flexibility, light weight, low cost, and low toxicity. Recent studies have explored how to increase efficiency and reduce challenges to push polymeric active materials further towards practicality in batteries. Many types of polymers are being explored, including conductive, non-conductive, and radical polymers. Batteries with a combination of electrodes (one metal electrode and one polymeric electrode) are easier to test and compare to current metal-based batteries, however batteries with both a polymer cathode and anode are also a current research focus. Polymer-based batteries, including metal/polymer electrode combinations, should be distinguished from metal-polymer batteries, such as a lithium polymer battery, which most often involve a polymeric electrolyte, as opposed to polymeric active materials.

Organic polymers can be processed at relatively low temperatures, lowering costs. They also produce less carbon dioxide.