Company: JUPGF
Filing Date: 2025-09-25
Form Type: F-1/A
Source: 0001493152-25-014979
Chunk: 98

Company: ATLAS CRITICAL MINERALS Corp
Filing Date: 2025-09-25
Form: F-1/A
Chunk 98
---
 Goiás   
 Project |     |              | 860.739/2023 |     |                    | 1,955.89 |     | Rare           
 Earths, Potash |     | Jussara           |     | Goiás,  
 Brazil  |
| Goiás   
 Project |     |              | 860.738/2023 |     |                    | 1,940.81 |     | Rare           
 Earths, Potash |     | Jussara           |     | Goiás,  
 Brazil  |
| Goiás   
 Project |     |              | 860.737/2023 |     |                    | 1,951.10 |     | Rare           
 Earths, Potash |     | Jussara           |     | Goiás,  
 Brazil  |
| Goiás   
 Project |     |              | 860.736/2023 |     |                    | 1,958.39 |     | Rare           
 Earths, Potash |     | Jussara,          
 Britânia          |     | Goiás,  
 Brazil  |
| Goiás   
 Project |     |              | 860.735/2023 |     |                    | 1,988.76 |     | Rare           
 Earths, Potash |     | Jussara           |     | Goiás,  
 Brazil  |

| 80 |

Graphite

Overview

Graphite has been on the
list of the minerals considered critical to the economic and national security of the United States since an initial list published by
the U.S. Department of the Interior on May 18, 2018. Graphite is the most used anode in lithium-ion batteries, benefitting from its high
energy and power density. The global need for high-quality, low impurity graphite is directly related to the growth in electric vehicle
(“EV”) adoption as discussed above. According to recent publication from Benchmark Mineral Intelligence, a well-respected
mineral consultancy, to meet demand for anode materials, an estimated 97 natural flake graphite mines will need to be built by 2035,
assuming an average size of 56,000 tons a year and no contribution from recycling.

Graphite plays a critical
role in steel production, automotive manufacturing, lubricants, and battery technology—particularly as the anode material in most
lithium-ion batteries. It also is used extensively in military applications including rocket and missile nozz