NATIONAL CRITICAL MINERAL MISSION(NCMM)
1. Context
Government of India launched the National Critical Mineral Mission (NCMM) in 2025 to establish a robust framework for self-reliance in the critical mineral sector
2. What is the National Critical Mineral Mission (NCMM)?
- The National Critical Mineral Mission (NCMM) is a strategic initiative by the Government of India aimed at securing the nation's access to essential minerals that are crucial for modern technologies and industrial development.
- These minerals, often referred to as "critical minerals," include lithium, cobalt, nickel, rare earth elements, and others that play a vital role in sectors such as renewable energy, electronics, electric mobility, defense, and telecommunications.
- India’s growing push towards clean energy, electric vehicles, and advanced manufacturing has significantly increased the demand for these minerals. However, many of these resources are either scarce within India or are largely controlled by a few countries, making their supply highly vulnerable to geopolitical and market uncertainties.
- Recognizing this challenge, the NCMM has been envisioned to ensure a reliable, long-term, and secure supply chain for critical minerals.
- Under this mission, India seeks to undertake comprehensive mapping and exploration of its own geological resources to identify potential domestic sources of critical minerals.
- At the same time, the mission aims to foster international partnerships and joint ventures in mineral-rich countries to access these essential resources.
- In addition to exploration and acquisition, the NCMM focuses on building the capacity for value addition, processing, and recycling of critical minerals within the country, thereby reducing dependence on imports and enhancing self-reliance.
- The mission also emphasizes sustainability and environmental responsibility in mineral extraction and processing. It integrates research and innovation to develop efficient technologies for extraction, separation, and recycling of these minerals.
- Overall, the National Critical Mineral Mission reflects India’s strategic vision to secure its mineral resources in line with its developmental goals, green transition agenda, and national security interests
3. Significance of National Critical Mineral Mission (NCMM)
- The significance of the National Critical Mineral Mission (NCMM) lies in its strategic role in safeguarding India's economic growth, technological advancement, and national security in an increasingly resource-competitive world.
- As India transitions toward clean energy, digital infrastructure, and advanced manufacturing, the demand for critical minerals—such as lithium, cobalt, nickel, graphite, and rare earth elements—is expected to surge.
- These minerals are essential components in electric vehicle batteries, solar panels, wind turbines, electronics, and defense systems. However, India's domestic availability of many of these minerals is either limited or unexplored, and their global supply chains are often concentrated in a few countries, making India vulnerable to external shocks and supply disruptions.
- The NCMM is significant because it addresses this vulnerability by adopting a multi-pronged approach. It encourages extensive exploration and development of domestic mineral resources, reduces overdependence on imports, and ensures strategic tie-ups with resource-rich countries to secure stable and diversified supply chains.
- This is particularly important for ensuring energy security and industrial competitiveness in the long term.
- Moreover, by promoting research, innovation, and recycling of critical minerals, the mission supports the development of indigenous capabilities in mineral processing and value addition.
- This aligns with the broader goals of "Aatmanirbhar Bharat" (self-reliant India) and strengthens India's position in global supply chains, especially in emerging technologies.
- From a geopolitical perspective, the NCMM enhances India's strategic autonomy by reducing dependence on any single country for crucial inputs. Environmentally, it also promotes sustainable mining practices and efficient resource utilization, ensuring that the push for critical minerals does not come at the cost of ecological damage.
- In essence, the National Critical Mineral Mission is a foundational step in preparing India for the demands of the 21st-century economy—securing essential raw materials, supporting innovation and green technologies, and reinforcing national resilience in a rapidly changing global landscape
4. What are critical minerals?
- Critical minerals are naturally occurring elements or minerals that are essential for the functioning of modern technologies, national defense, clean energy systems, and advanced manufacturing, but which also face a high risk of supply disruption. Their "criticality" arises from two main factors: their economic importance and the vulnerability of their supply chains.
- These minerals are vital for a wide range of applications—from renewable energy technologies like solar panels, wind turbines, and batteries, to electronic devices, telecommunications, aerospace, and defense equipment.
- For instance, lithium, cobalt, and nickel are key components of lithium-ion batteries used in electric vehicles (EVs), while rare earth elements like neodymium and dysprosium are used in permanent magnets for wind turbines and electronics.
- What makes these minerals "critical" is not just their usage, but the challenges associated with their availability. Many critical minerals are geographically concentrated in a few countries—such as China, the Democratic Republic of Congo, or Australia—making other countries dependent on imports and vulnerable to geopolitical risks, trade restrictions, or supply shocks.
- In the Indian context, the government has identified several minerals as critical, including lithium, cobalt, graphite, nickel, rare earth elements, and tantalum, among others. These are essential for India's ambitions in renewable energy, electric mobility, and high-tech industries.
- Thus, critical minerals are at the heart of the 21st-century global economy, and their secure and sustainable supply is increasingly viewed as a matter of national interest and strategic importance
5. Components of NCMM
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Increasing Domestic Critical Minerals Production
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Acquisition of Critical Mineral Assets Abroad
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Recycling of Critical Minerals
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Trade and Markets for Critical Minerals
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Scientific Research and Technological Advancement
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Human Resource Development
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Developing Effective Funding, Financing, and Fiscal Incentives
6. Usage of Critical minerals
Critical minerals play a crucial role in supporting clean energy technologies and various industrial applications. Their relevance spans multiple sectors:
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Solar Energy
Elements such as silicon, tellurium, indium, and gallium are essential for manufacturing photovoltaic (PV) cells, which are the core components of solar panels. India's existing solar power capacity of 64 GW significantly relies on these materials. -
Wind Energy
Rare earth elements, particularly neodymium and dysprosium, are vital for producing permanent magnets used in wind turbines. With India setting a target to boost its wind energy capacity from the current 42 GW to 140 GW by 2030, a dependable supply of these minerals is critical. -
Electric Vehicles (EVs)
Key minerals like lithium, cobalt, and nickel are integral to the production of lithium-ion batteries, which power electric vehicles. India’s National Electric Mobility Mission Plan (NEMMP) envisions the adoption of 6 to 7 million EVs by 2024, further intensifying the demand for these critical materials. -
Energy Storage
Advanced energy storage systems, particularly those based on lithium-ion technology, require substantial amounts of lithium, nickel, and cobalt to function effectively.
7. Way Forward
India aims to reduce the emissions intensity of its GDP by 45% by 2030 (from 2005 levels), achieve 50% of its electric power capacity from non-fossil sources by 2030, and reach net-zero emissions by 2070. To achieve these climate goals, the National Critical Mineral Mission (NCMM) plays a vital role by building a resilient and self-reliant ecosystem for critical minerals. The mission focuses on boosting domestic production, encouraging private sector participation, strengthening international partnerships, and streamlining regulations to ensure a steady supply of minerals essential for clean energy technologies
| For Prelims: National Critical Mineral Mission (NCMM), Critical Minerals,
Usage of Critical minerals
For Mains: GS III - Environment & Ecology
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For Prelims: Critical minerals, Ministry of Mines, carbon emissions, cleaner energy, lithium, cobalt, nickel, graphite, tin, copper, Selenium, Cadmium, Centre of Excellence on critical minerals, Australia's CSIRO, Geological Survey of India,
For Mains:
1. What are critical minerals? Discuss their significance for a country's economic development and national security. Explain how the identification of critical minerals helps in reducing import dependency and ensuring resource security. (250 Words)
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Previous Year Questions
1. With reference to the mineral resources of India, consider the following pairs: (UPSC 2010)
Mineral 90%Natural sources in
1. Copper Jharkhand
2. Nickel Orissa
3. Tungsten Kerala
Which of the pairs given above is/are correctly matched?
A. 1 and 2 only B. 2 only C. 1 and 3 only D. 1, 2 and 3
Answer: B
2. Recently, there has been a concern over the short supply of a group of elements called 'rare earth metals.' Why? (UPSC 2012)
1. China, which is the largest producer of these elements, has imposed some restrictions on their export.
2. Other than China, Australia, Canada and Chile, these elements are not found in any country. 3. Rare earth metals are essential for the manufacture of various kinds of electronic items and there is a growing demand for these elements.
Which of the statements given above is/are correct?
A. 1 only B. 2 and 3 only C. 1 and 3 only D. 1, 2 and 3
Answer: C
3. In India, what is the role of the Coal Controller's Organization (CCO)? (UPSC 2022)
1. CCO is the major source of Coal Statistics in Government of India.
2. It monitors progress of development of Captive Coal/Lignite blocks.
3. It hears any objection to the Government's notification relating to acquisition of coal-bearing areas.
4. It ensures that coal mining companies deliver the coal to end users in the prescribed time. Select the correct answer using the code given below:
A. 1, 2 and 3 B. 3 and 4 only C. 1 and 2 only D. 1, 2 and 4
Answer: A
4. Which of the following statements best describes the term 'Social Cost of Carbon'? It is a measure, in monetary value, of the (UPSC 2020)
A. long-term damage done by a tonne of CO2 emission in a given year.
B. requirement of fossil fuels for a country to provide goods and services to its citizens, based on the burning of those fuels.
C. efforts put in by a climate refugee to adapt to live in a new place.
D. contribution of an individual person to the carbon footprint on the planet Earth.
Answer: A
5. Direction: It consists of two statements, one labelled as ‘Statement (I)’ and the others as ‘Statement (II)’. You are to examine these two statements carefully and select the answer using the codes given below: (UPSC ESE 2018)
Statement (I): Green energy refers to one which does not harm the ecosystem of planet earth. Statement (II): All renewable energy is green energy.
A. Both Statement (I) and Statement (II) individually true and Statement (II) is the correct explanation of Statement (I)
B. Both statement (I) and Statement (II) are individually true, but Statement (II) is not the correct explanation of Statement (I)
C. Statement (I) is true, but Statement (II) is false
D. Statement (I) is false, but Statement (II) is true
Answer: C
6. Which type of battery is used in the recently launched world's first fully electric cargo ship by change? (Delhi Police Constable 2017)
A. Lead Acid B. Manganese C. Lithium ion D. Nickel metal hydride
Answer: C
7. White gold is an alloy of (UPSC CAPF 2022)
A. gold, nickel and palladium
B. gold, cobalt and palladium
C. gold, titanium and platinum
D. gold, magnesium and palladium
Answer: A
8. Graphene is frequently in news recently. What is its importance? (UPSC 2012)
1. It is a two-dimensional material and has good electrical conductivity.
2. It is one of the thinnest but strongest materials tested so far.
3. It is entirely made of silicon and has high optical transparency.
4. It can be used as 'conducting electrodes' required for touch screens, LCDs and organic LEDs. Which of the statements given above are correct?
A. 1 and 2 only B. 3 and 4 only C. 1, 2 and 4 only D. 1, 2, 3 and 4
Answer: C
9. Graphite and diamonds are__________. (WBCS Prelims 2020)
A. isotopes B. isomers C. isotones D. allotropes
Answer: D
10. Consider the following statements: (UPSC 2020)
1. Coal ash contains arsenic, lead and mercury.
2. Coal-fired power plants release sulphur dioxide and oxides of nitrogen into the environment. 3. High ash content is observed in Indian coal.
Which of the statements given above is/are correct?
A. 1 only B. 2 and 3 only C. 3 only D. 1, 2 and 3
Answer: D
11. Which of the following can be found as pollutants in the drinking water in some parts of India? (UPSC 2013)
1. Arsenic
2. Sorbitol
3. Fluoride
4. Formaldehyde
5. Uranium
Select the correct answer using the codes given below.
A. 1 and 3 only B. 2, 4 and 5 only C. 1, 3 and 5 only D. 1, 2, 3, 4 and 5
Answer: C
12. In the context of solving pollution problems, what is/are the advantage/advantages of the bioremediation technique? (UPSC 2017)
1. It is a technique for cleaning up pollution by enhancing the same biodegradation process that occurs in nature.
2. Any contaminant with heavy metals such as cadmium and lead can be readily and completely treated by bioremediation using microorganisms.
3. Genetic engineering can be used to create microorganisms specifically designed for bioremediation.
Select the correct answer using the code given below:
A. 1 only B. 2 and 3 only C. 1 and 3 only D. 1, 2 and 3
Answer: C
13. Due to improper/indiscriminate disposal of old and used computers or their parts, which of the following are released into the environment as e-waste? (UPSC 2013)
1. Beryllium
2. Cadmium
3. Chromium
4. Heptachlor
5. Mercury
6. Lead
7. Plutonium
Select the correct answer using the codes given below.
A. 1, 3, 4, 6 and 7 only B. 1, 2, 3, 5 and 6 only
C. 2, 4, 5 and 7 only D. 1, 2, 3, 4, 5, 6 and 7
Answer: B
14. When was the Geological Survey of India (GSI) of India founded? (UPRVUNL Staff Nurse 2021)
A. 1851 B. 1951 C. 1871 D. 1931
Answer: A
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Source: PIB
