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Cobalt: A Precarious Supply Chain

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Cobalt: A Precarious Supply Chain

Cobalt: A Precarious Supply Chain

How does your mobile phone last for 12 hours on just one charge?

It’s the power of cobalt, along with several other energy metals, that keeps your lithium-ion battery running.

The only problem? Getting the metal from the source to your electronics is not an easy feat, and this makes for an extremely precarious supply chain for manufacturers.

Our infographic today comes to us from LiCo Energy Metals, and it focuses on where this important ingredient of green technology originates from, and the supply risks associated with its main sources.

What is Cobalt?

Cobalt is a transition metal found between iron and nickel on the periodic table. It has a high melting point (1493°C) and retains its strength to a high temperature.

Similar to iron or nickel, cobalt is ferromagnetic. It can retain its magnetic properties to 1100°C, a higher temperature than any other material. Ferromagnetism is the strongest type of magneticism: it’s the only one that typically creates forces strong enough to be felt, and is responsible for the magnets encountered in everyday life.

These unique properties make the metal perfect for two specialized high-tech purposes: superalloys and battery cathodes.

Superalloys

High-performance alloys drive 18% of cobalt demand. The metal’s ability to withstand intense temperatures and conditions makes it perfect for use in:

  • Turbine blades
  • Jet engines
  • Gas turbines
  • Prosthetics
  • Permanent magnets

Lithium-ion Batteries:

Batteries drives 49% of demand – and most of this comes from cobalt’s usage in lithium-ion battery cathodes:

Type of lithium-ion cathodeCobalt in cathodeSpec. energy (Wh/kg)
LFP0%120
LMO0%140
NMC15%200
LCO55%200
NCA10%245

The three most powerful cathode formulations for li-ion batteries all need cobalt. As a result, the metal is indispensable in many of today’s battery-powered devices.

  • Mobile phones (LCO)
  • Tesla Model S (NCA)
  • Tesla Powerwall (NMC)
  • Chevy Volt (NMC/LMO)

The Tesla Powerwall 2 uses approximately 7kg, and a Tesla Model S (90 kWh) uses approximately 22.5kg of the energy metal.

The Cobalt Supply Chain

Cobalt production has gone almost straight up to meet demand, and production has more than doubled since the early 2000s.

But while the metal is desired, getting it is the hard part:

1. No native cobalt has ever been found in nature.

There are four widely-distributed ores that exist, but almost no cobalt is mined from them as a primary source.

2. Most cobalt production is mined as a by-product.

Mine source% cobalt production
Nickel (by-product)60%
Copper (by-product)38%
Cobalt (primary)2%

This means it is hard to expand production when more is needed.

3. Most production occurs in the DRC, a country with elevated supply risks:

CountryTonnes%
United States5240.4%
China1,4171.2%
DRC67,97555.4%
Rest of World52,78543.0%
Total122,701100.0%

(Source: CRU, estimated production for 2017, tonnes)

The Future of Cobalt Supply

Companies like Tesla and Panasonic need reliable sources of the metal, and right now there aren’t many failsafes.

The U.S. hasn’t mined cobalt in significant volumes since 1971, and the USGS reports that the United States only has 301 tonnes of the metal stored in stockpiles.

The reality is that the DRC produces about half of all cobalt, and it also holds approximately 47% of all global reserves.

Why is this a concern for end-users?

1. The DRC is one of the poorest, corrupt, and most coercive countries in the planet.

It ranks:

  • 151st out of 159 countries in the Human Freedom Index
  • 176th out of 188 countries on the Human Development Index
  • 178th out of 184 countries in terms of GDP per capita ($455)
  • 148th out of 169 countries in the Corruption Perceptions Index

2. The DRC has had more deaths from war since WWII than any other country on the planet.

Recent wars in the DRC:

  • First Congo War (1996-1997) – A foreign invasion by Rwanda that overthrew the Mobutu regime.
  • Second Congo War (1998-2003) – The bloodiest conflict in world history since WW2 with 5.4 million deaths.

3. Human Rights in Mining

The DRC government estimates that 20% of all cobalt production in the country comes from artisanal miners – independent workers who dig holes and mine ore without sophisticated mines or machinery.

There are at least 100,000 artisanal cobalt miners in the DRC, and UNICEF estimates that up to 40,000 children could be in the trade. Children can be as young as seven years old, and they can work up to 12 hrs with physically demanding work, earning $2 per day.

Meanwhile, Amnesty International alleges that Apple, Samsung, and Sony fail to do basic checks in making sure the metal in their supply chains did not come from child labor.

Most major companies have vowed that any such practices will not be tolerated in their supply chains.

Other Sources

Where will tomorrow’s supply come from, and will the role of the DRC eventually diminish? Will Tesla achieve its goal of a North American supply chain for its key metal inputs?

Mining exploration companies are already looking to regions like Ontario, Idaho, British Columbia, and the Northwest Territories to find tomorrow’s deposits:

Ontario: Ontario is one of the only places in the world where cobalt-primary mines that have existed. This camp is nearby the aptly named town of Cobalt, Ontario, which is located halfway between Sudbury – the world’s “Nickel Capital”, and Val-d’Or, one of the most famous gold camps in the world.

Idaho: Idaho is known as the “Gem State” while also being known for its silver camps in Couer D’Alene – but it has also been a cobalt producer in the past.

BC: The mountains of British Columbia are known for their rich gold, silver, copper, zinc, and met coal deposits. But cobalt often occurs with copper, and some mines in BC have produced cobalt in the past.

Northwest Territories: Cobalt can also be found up north, as the NWT becomes a more interesting mineral destination for companies. 160km from Yellowknife is a gold-cobalt-bismuth-copper deposit being developed.

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Charted: 4 Reasons Why Lithium Could Be the Next Gold Rush

Visual Capitalist has partnered with EnergyX to show why drops in prices and growing demand may make now the right time to invest in lithium.
Sponsored Post

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April 23, 2024

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The teaser image shows a bubble chart showing that the price of a Tesla is similar to that of other major auto manufacturers.

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The following content is sponsored by EnergyX
This is a long-form infographic with a line graph, sunburst graph, bubble chart, and horizontal bar chart that shows now is the time to invest in lithium.

4 Reasons Why You Should Invest in Lithium

Lithium’s importance in powering EVs makes it a linchpin of the clean energy transition and one of the world’s most precious minerals.

In this graphic, Visual Capitalist partnered with EnergyX to explore why now may be the time to invest in lithium.

1. Lithium Prices Have Dropped

One of the most critical aspects of evaluating an investment is ensuring that the asset’s value is higher than its price would indicate. Lithium is integral to powering EVs, and, prices have fallen fast over the last year:

DateLiOH·H₂O*Li₂CO₃**
Feb 2023$76$71
March 2023$71$61
Apr 2023$43$33
May 2023$43$33
June 2023$47$45
July 2023$44$40
Aug 2023$35$35
Sept 2023$28$27
Oct 2023$24$23
Nov 2023$21$21
Dec 2023$17$16
Jan 2024$14$15
Feb 2024$13$14

Note: Monthly spot prices were taken as close to the 14th of each month as possible.
*Lithium hydroxide monohydrate MB-LI-0033
**Lithium carbonate MB-LI-0029

2. Lithium-Ion Battery Prices Are Also Falling

The drop in lithium prices is just one reason to invest in the metal. Increasing economies of scale, coupled with low commodity prices, have caused the cost of lithium-ion batteries to drop significantly as well.

In fact, BNEF reports that between 2013 and 2023, the price of a Li-ion battery dropped by 82%.

YearPrice per KWh
2023$139
2022$161
2021$150
2020$160
2019$183
2018$211
2017$258
2016$345
2015$448
2014$692
2013$780

3. EV Adoption is Sustainable

One of the best reasons to invest in lithium is that EVs, one of the main drivers behind the demand for lithium, have reached a price point similar to that of traditional vehicle.

According to the Kelly Blue Book, Tesla’s average transaction price dropped by 25% between 2022 and 2023, bringing it in line with many other major manufacturers and showing that EVs are a realistic transport option from a consumer price perspective. 

ManufacturerSeptember 2022September 2023
BMW$69,000$72,000
Ford$54,000$56,000
Volkswagon$54,000$56,000
General Motors$52,000$53,000
Tesla$68,000$51,000

4. Electricity Demand in Transport is Growing

As EVs become an accessible transport option, there’s an investment opportunity in lithium. But possibly the best reason to invest in lithium is that the IEA reports global demand for the electricity in transport could grow dramatically by 2030:

Transport Type202220252030
Buses 🚌23,000 GWh50,000 GWh130,000 GWh
Cars 🚙65,000 GWh200,000 GWh570,000 GWh
Trucks 🛻4,000 GWh15,000 GWh94,000 GWh
Vans 🚐6,000 GWh16,000 GWh72,000 GWh

The Lithium Investment Opportunity

Lithium presents a potentially classic investment opportunity. Lithium and battery prices have dropped significantly, and recently, EVs have reached a price point similar to other vehicles. By 2030, the demand for clean energy, especially in transport, will grow dramatically. 

With prices dropping and demand skyrocketing, now is the time to invest in lithium.

EnergyX is poised to exploit lithium demand with cutting-edge lithium extraction technology capable of extracting 300% more lithium than current processes.

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