A GLOBAL PROBLEM
The World Needs Copper
The copper market is entering a period of structural tightness where rapidly rising demand - driven by AI, data centers, and the energy transition - is clashing with a declining supply pipeline.
In 2026, analysts anticipate a significant supply deficit as new discoveries reach a 35-year low and ore grades continue to drop.
A GLOBAL PROBLEM
The World Needs Copper
The copper market is entering a period of structural tightness where rapidly rising demand - driven by AI, data centers, and the energy transition - is clashing with a declining supply pipeline.
In 2026, analysts anticipate a significant supply deficit as new discoveries reach a 35-year low and ore grades continue to drop.
By Year 2035
By Year 2035
Copper Demand for Grid-Scale Batteries
Fastest-growing use case as global energy storage accelerates.
- Sprott
Copper Demand for Grid-Scale Batteries
Fastest-growing use case as global energy storage accelerates.
- Sprott
Decline in Global Copper Head Grades Since 2000
This development has made each tonne harder and costlier to produce.
- CRU Group, ICSG
Decline in Global Copper Head Grades Since 2000
This development has made each tonne harder and costlier to produce.
- CRU Group, ICSG
Projected Global Copper Supply Shortfall
Equal to 6.5 - 10 million tonnes per yearwing use case as global energy storage accelerates.
- IEA, S&P Global
Projected Global Copper Supply Shortfall
Equal to 6.5 - 10 million tonnes per yearwing use case as global energy storage accelerates.
- IEA, S&P Global
Minimum Investment Required By 2050
Needed to close the global copper gap and support net-zero targets.
- BloombergNEF
Minimum Investment Required By 2050
Needed to close the global copper gap and support net-zero targets.
- BloombergNEF
THE FUTURE IS BUILT ON COPPER
Essential Building Block to Modern Life
THE FUTURE IS BUILT ON COPPER
Essential Building Block to Modern Life
Data Centers
Data centers and AI will drive copper usage to surge 6-7x by 2050, requiring an extra 3.4 million tonnes to support growing digital infrastructure.¹
Data Centers
Data centers and AI will drive copper usage to surge 6-7x by 2050, requiring an extra 3.4 million tonnes to support growing digital infrastructure.¹
Data Centers
Data centers and AI will drive copper usage to surge 6-7x by 2050, requiring an extra 3.4 million tonnes to support growing digital infrastructure.¹
Data Centers
Data centers and AI will drive copper usage to surge 6-7x by 2050, requiring an extra 3.4 million tonnes to support growing digital infrastructure.
Clean Energy
Wind and solar use between 7-37x more copper than conventional power, making copper essential to clean energy.²
Clean Energy
Wind and solar use between 7-37x more copper than conventional power, making copper essential to clean energy.²
Clean Energy
Wind and solar use between 7-37x more copper than conventional power, making copper essential to clean energy.²
EV Demand
On average, electric vehicles use up to 4x times more copper than regular gasoline vehicles.³
EV Demand
On average, electric vehicles use up to 4x times more copper than regular gasoline vehicles.³
EV Demand
On average, electric vehicles use up to 4x times more copper than regular gasoline vehicles.³
OUR SOLUTION FOR THE SHORTAGE
A High-Grade Skarn Deposit in the Sonora-Arizona Belt
Skarn
Skarn
Metamorphic Rock
A skarn deposit forms when hot, mineral-rich fluids from a nearby magma intrusion chemically alter surrounding carbonate rocks (like limestone or dolomite). This process, known as metasomatism, can concentrate valuable metals such as copper, silver, and gold.
While typically smaller in size than porphyry systems, skarns are known for their higher-grade mineralization. They often occur alongside porphyry copper deposits — notable examples include Twin Buttes (Arizona) and Bingham Canyon (Utah), where both deposit types are present in the same system.
OUR SOLUTION FOR THE SHORTAGE
A High-Grade Skarn Deposit in the Sonora-Arizona Belt
Skarn
Skarn
Metamorphic Rock
A skarn deposit forms when hot, mineral-rich fluids from a nearby magma intrusion chemically alter surrounding carbonate rocks (like limestone or dolomite). This process, known as metasomatism, can concentrate valuable metals such as copper, silver, and gold.
While typically smaller in size than porphyry systems, skarns are known for their higher-grade mineralization. They often occur alongside porphyry copper deposits — notable examples include Twin Buttes (Arizona) and Bingham Canyon (Utah), where both deposit types are present in the same system.
OUR SOLUTION FOR THE SHORTAGE
A High-Grade Skarn Deposit in the Sonora-Arizona Belt
Skarn
Skarn
Metamorphic Rock
A skarn deposit forms when hot, mineral-rich fluids from a nearby magma intrusion chemically alter surrounding carbonate rocks (like limestone or dolomite). This process, known as metasomatism, can concentrate valuable metals such as copper, silver, and gold.
While typically smaller in size than porphyry systems, skarns are known for their higher-grade mineralization. They often occur alongside porphyry copper deposits — notable examples include Twin Buttes (Arizona) and Bingham Canyon (Utah), where both deposit types are present in the same system.
The Adelita Project of Algo Grande Copper is a high-grade copper-silver-gold discovery in the Sonora-Arizona Mineral Belt. High-grade, good metallurgy makes this property one of the most exciting projects in Sonora, with clear potential for rapid growth
OUR SOLUTION FOR THE SHORTAGE
A High-Grade Skarn Deposit in the Sonora-Arizona Belt
Skarn
Skarn
Metamorphic Rock
A skarn deposit forms when hot, mineral-rich fluids from a nearby magma intrusion chemically alter surrounding carbonate rocks (like limestone or dolomite). This process, known as metasomatism, can concentrate valuable metals such as copper, silver, and gold.
While typically smaller in size than porphyry systems, skarns are known for their higher-grade mineralization. They often occur alongside porphyry copper deposits — notable examples include Twin Buttes (Arizona) and Bingham Canyon (Utah), where both deposit types are present in the same system.
The Adelita Project of Algo Grande Copper is a high-grade copper-silver-gold discovery in the Sonora-Arizona Mineral Belt. High-grade, good metallurgy makes this property one of the most exciting projects in Sonora, with clear potential for rapid growth
The Adelita Project
Anchored by the Cerro Grande high-grade deposit
Algo Grande Copper is unlocking Sonora's most promising high-grade, high-margin, concentrated Cu-Ag-Au projects.
The Adelita Project
Anchored by the Cerro Grande high-grade deposit
Algo Grande Copper is unlocking Sonora's most promising high-grade, high-margin, concentrated Cu-Ag-Au projects.
MORE THAN JUST AN EXPLORATION COMPANY
Our Trifecta Exploration Approach
MORE THAN JUST AN EXPLORATION COMPANY
Our Trifecta Exploration Approach
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Algo Grande is a copper exploration company advancing the Adelita project, anchored by a near-surface Cu-Ag-Au skarn discovery, located within the prolific Sonora-Arizona Porphyry Belt.
TSXV: ALGR | OTC: ALGRF | FRA: KM00
Reach Us
Suite 1507 – 1030 West Georgia Street,
Vancouver, BC, Canada, V6E 2Y3
Qualified Person and NI 43-101 Disclosure
The scientific and technical information contained in this website has been reviewed and approved by Mr. Lorne Warner, P. Geo., an independent Qualified Person for Algo Grande Copper Corp. as defined in NI 43-101.
Mr. Warner has examined information regarding the historical exploration at the Adelita copper project, which includes his review of the historical sampling, analytical and procedures and two site visits to verify drill collar locations and personally collect rock samples for analysis. Mr. Warner also completed a technical report on the Adelita Project prepared in accordance with NI 43-101 dated effective August 15, 2025, which is available under the Company’s profile at www.sedarplus.ca.
Management notes that historical results were collected and reported by operators unrelated to the Company but have been verified by its Qualified Person; as a result, the historical results create a scientific basis for ongoing work on the Adelita property. Management cautions that historical results, discoveries and any published resource estimates on adjacent or nearby mineral properties, whether in stated current resource estimates or historical resource estimates, are not necessarily indicative of the results that may be achieved on the Adelita property.
© 2026 Algo Grande Copper Corp. | All Rights Reserved
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Subscribe for the Latest
Get emails and SMS on the latest investor news, discovery progress and company milestones
Algo Grande is a copper exploration company advancing the Adelita project, anchored by a near-surface Cu-Ag-Au skarn discovery, located within the prolific Sonora-Arizona Porphyry Belt.
TSXV: ALGR | OTC: ALGRF | FRA: KM00
Reach Us
Suite 1507 – 1030 West Georgia Street,
Vancouver, BC, Canada, V6E 2Y3
Qualified Person and NI 43-101 Disclosure
The scientific and technical information contained in this website has been reviewed and approved by Mr. Lorne Warner, P. Geo., an independent Qualified Person for Algo Grande Copper Corp. as defined in NI 43-101.
Mr. Warner has examined information regarding the historical exploration at the Adelita copper project, which includes his review of the historical sampling, analytical and procedures and two site visits to verify drill collar locations and personally collect rock samples for analysis. Mr. Warner also completed a technical report on the Adelita Project prepared in accordance with NI 43-101 dated effective August 15, 2025, which is available under the Company’s profile at www.sedarplus.ca.
Management notes that historical results were collected and reported by operators unrelated to the Company but have been verified by its Qualified Person; as a result, the historical results create a scientific basis for ongoing work on the Adelita property. Management cautions that historical results, discoveries and any published resource estimates on adjacent or nearby mineral properties, whether in stated current resource estimates or historical resource estimates, are not necessarily indicative of the results that may be achieved on the Adelita property.
© 2026 Algo Grande Copper Corp. | All Rights Reserved
Powered by
Subscribe for
the Latest
Get emails and SMS on the latest investor news, discovery progress and company milestones
Algo Grande is a copper exploration company advancing the Adelita project, anchored by a near-surface Cu-Ag-Au skarn discovery, located within the prolific Sonora-Arizona Porphyry Belt.
TSXV: ALGR | OTC: ALGRF | FRA: KM00
Reach Us
Suite 1507 – 1030 West Georgia Street,
Vancouver, BC, Canada, V6E 2Y3
Qualified Person and NI 43-101 Disclosure
The scientific and technical information contained in this website has been reviewed and approved by Mr. Lorne Warner, P. Geo., an independent Qualified Person for Algo Grande Copper Corp. as defined in NI 43-101.
Mr. Warner has examined information regarding the historical exploration at the Adelita copper project, which includes his review of the historical sampling, analytical and procedures and two site visits to verify drill collar locations and personally collect rock samples for analysis. Mr. Warner also completed a technical report on the Adelita Project prepared in accordance with NI 43-101 dated effective August 15, 2025, which is available under the Company’s profile at www.sedarplus.ca.
Management notes that historical results were collected and reported by operators unrelated to the Company but have been verified by its Qualified Person; as a result, the historical results create a scientific basis for ongoing work on the Adelita property. Management cautions that historical results, discoveries and any published resource estimates on adjacent or nearby mineral properties, whether in stated current resource estimates or historical resource estimates, are not necessarily indicative of the results that may be achieved on the Adelita property.
© 2026 Algo Grande Copper Corp. | All Rights Reserved
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