Researchers have found that nanodiamonds – tiny diamond particles 10,000 times smaller than the diameter of a hair. It can prevent short-circuits and fires in lithium batteries widely used in mobile devices from cell phones to laptops.

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According to research:

  • The new process can turn electrolyte solution a key component of most batteries into a safeguard.
  • In addition, against the chemical process that leads to battery-related disasters.
  • In the study the researchers described a process by which nanodiamonds curtail the electrochemical deposition, called plating.
  • Furthermore, that can lead to hazardous short-circuiting of lithium ion batteries.

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According to researchers:

  • We anticipate the first use of our proposed technology will be in less critical applications not in cell phones or car batteries.
  • To ensure safety, additives to electrolytes.
  • Such as nanodiamonds, need to be combined with other precautions.
  • Such as using non-flammable electrolytes, safer electrode materials and stronger separators.
  • As batteries are used and charged, the electrochemical reaction results in the movement of ions.
  • Between the two electrodes of a battery, which is the essence of an electrical current.
  • Over time, this repositioning of ions can create tendril-like buildups almost like stalactites forming inside a cave.
  • These battery buildups, called dendrites, are one of the main causes of lithium battery malfunction.
  • As dendrites form inside the battery over time, they can reach the point where they push through the separator.

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  • In addition, a porous polymer film that prevents the positively charged part of a battery from touching the negatively charged part.
  • When the separator is breached, a short-circuit can occur.
  • Furthermore,which can also lead to a fire since the electrolyte solution in most lithium-ion batteries is highly flammable.
  • To avoid dendrite formation and minimise the probability of fire, current battery designs include one electrode made of graphite filled with lithium instead of pure lithium.
  • The use of graphite as the host for lithium prevents the formation of dendrites.
  • But lithium intercalated graphite also stores about 10 times less energy than pure lithium.

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The finding means that a great increase in energy storage is possible because dendrite formation can eliminated in pure lithium electrodes.

 

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