The Driven
  • EV News
    • Electric Cars
    • Electric Bikes
    • Electric Boats
    • EV Conversions
    • Electric Flight
    • Electric Transport
    • Hydrogen Fuel Cell
    • Batteries
    • Charging
    • Policy
  • EV Models
  • EV Sales
  • Road Trips
  • Reviews
  • Multimedia
    • Podcasts
    • Videos
  • EV Explainers
    • EV Terms
    • FAQs
    • Readers’ Questions





The Driven
The Driven
  • EV News
    • Electric Cars
    • Electric Bikes
    • Electric Boats
    • EV Conversions
    • Electric Flight
    • Electric Transport
    • Hydrogen Fuel Cell
    • Batteries
    • Charging
    • Policy
  • EV Models
  • EV Sales
  • Road Trips
  • Reviews
  • Multimedia
    • Podcasts
    • Videos
  • EV Explainers
    • EV Terms
    • FAQs
    • Readers’ Questions
Comments
  • Batteries
  • Charging
  • Electric Cars
  • EV News

New battery technology promises to slash electric vehicle cost

  • November 8, 2019
  • 3 minute read
  • Andrew Spence
electric car
Source: Unsplash/Stux
Share 0
Tweet 0
Share 0
Share 0
Share 0
Share 0
Share 0
Share 0
Share 0

The Lead

A new battery technology that could significantly reduce the price of electric cars and home battery systems has taken a major step towards commercialisation.

South Australian researchers from the University of Adelaide have secured an A$1 million research contract with a Chinese battery manufacturer to develop the new technology and bring it to market within 12 months.

The patented design uses non-toxic zinc and manganese, two metals that are abundant in Australia, and incombustible aqueous electrolyte to produce a battery with a high-energy density.

The researchers estimate the cost of this new electrolytic Zn–Mn battery to be less than US$ 10 per kWh compared with US$ 300 per kWh for current Li-ion batteries, US$72 per kWh for Ni–Fe batteries and US$ 48 per kWh for Lead–acid batteries.

The battery is designed by Dr Dongliang Chao and Professor Shi-Zhang Qiao from the University of Adelaide’s School of Chemical Engineering and Advanced Materials.

The high-energy, safe battery opens up markets where the battery weight, size and safety are essential factors, including automotive and aerospace, and domestic and commercial buildings, and grid-scale energy storage.

Dr Chao said although there were other Zn-Mn batteries on the market such as the dry cell, they were not rechargeable or recyclable and did not present high-energy density due to a different chemical reaction mechanism.

“I can imagine this battery being used on all vehicle types from small scooters to even diesel electric trains. Also in homes that need batteries to store solar power, or even large solar/wind farms,” he said.

“With more sustainable energy being produced – such as through wind and solar farms – storing this energy in batteries in a safe, non-expensive and environmentally sound way is becoming more urgent but current battery materials – including lithium, lead and cadmium – are expensive, hazardous and toxic.

“Our new electrolytic battery technology uses the non-toxic zinc and manganese and incombustible aqueous electrolyte to produce a battery with a high energy density.”

Dr Chao and Professor Qiao began working on the project in South Australia about 12 months ago and patented the technology at the beginning of this year.

Chinese battery manufacturer Zhuoyue Power New Energy Ltd, whose current batteries are lead-based, has committed $1 million to develop the new technology.

The ongoing research work and initial product development will be conducted in Adelaide with manufacturing expected to take place in Australia and China.

Dr Chao said the project would combine the new electrolytic battery technology and the company’s battery assembling technology.

“In addition, the battery uses basic materials and simple manufacturing processes so will be much cheaper to produce and easier to recycle than existing batteries of comparable energy density,” Dr Chao said.

Dr Chao obtained his PhD from Nanyang Technological University, Singapore, and worked as a researcher at University of California, Los Angeles, before joining the University of Adelaide in South Australia last year.

South Australia is home to the world’s largest lithium-ion battery at Neoen’s Hornsdale Wind Farm in the state’s Mid North. It is also looming as a hub for electric vehicles and hosts the World Solar Challenge, the world’s most famous solar car race.

This article was originally published on The Lead. Reproduced here with permission.

Sign in or create your account to join the discussion.
Share 0
Tweet 0
Share 0
Share 0
Share 0
Share 0
Share 0
Share 0
Share 0
Related Topics
  • battery storage
  • BEV
  • electric vehicle
  • EV
  • University of Adelaide
Get the free daily newsletter

I agree to the Terms of Use

  • EV News
    • Electric Cars
    • Electric Bikes
    • Electric Boats
    • EV Conversions
    • Electric Flight
    • Electric Transport
    • Hydrogen Fuel Cell
    • Batteries
    • Charging
    • Policy
  • EV Models
  • EV Sales
  • Road Trips
  • Reviews
  • Multimedia
    • Podcasts
    • Videos
  • EV Explainers
    • EV Terms
    • FAQs
    • Readers’ Questions
  • Press Releases

the driven electric vehicle podcast

Get the free daily newsletter

I agree to the Terms of Use

Stay Connected
The Driven
  • About The Driven
  • Get in Touch
  • Advertise
  • Contributors
  • Terms of Use
  • Editorial Guidelines
  • Privacy Policy

Input your search keywords and press Enter.