In a surprising move, Tesla's collaboration with Austrian engineering company Obrist has led to the unveiling of the 'HyperHybrid' Model Y, a groundbreaking innovation in the automotive industry. This model combines a small battery with a methanol engine, offering a unique approach to carbon-negative transport that diverges from the traditional reliance on hydrogen and electrical power. The modified Tesla Model Y showcases a dual system that includes a smaller 17.3 kWh battery, reducing vehicle mass and environmental impact. The methanol engine provides additional power and flexibility, allowing the vehicle to switch seamlessly between battery and methanol operation. This setup aims to achieve a carbon-negative footprint by extracting more CO2 from the air than the vehicle emits. The article highlights the advantages of methanol over hydrogen fuel cells, emphasizing its cost-effectiveness, utilization of existing infrastructure like fuel stations, and ease of transportation through pipelines. Obrist's vision of producing methanol from captured atmospheric CO2 using solar-powered plants in regions with abundant solar energy presents a significant advancement in combating climate change. Furthermore, the ease of handling methanol and its compatibility with existing transportation networks make it a promising candidate for a greener fuel alternative. The potential scalability and market viability of methanol as a sustainable liquid fuel indicate a positive direction for the automotive industry. Overall, the transition towards methanol represents a practical and eco-friendly approach to reducing greenhouse gas emissions and aligning with global climate change targets. Tesla's 'HyperHybrid' model symbolizes a shift towards a sustainable future in the automotive sector, paving the way for a greener revolution and contributing to a cleaner environment.