A new hydrogen-powered car is making headlines for delivering what electric vehicles still struggle to match: ultra-fast refueling and long-distance range. The vehicle claims to fully refuel in just 5 seconds and can travel up to 1,500 kilometers—a potential game-changer in clean transportation.

Unlike battery-electric cars that require hours of charging, this hydrogen fuel cell car emits only water vapor, making it one of the most eco-friendly zero-emission solutions available.

Hydrogen vehicles convert hydrogen into electricity using a fuel cell, offering high energy density and minimal downtime.

In contrast to battery-electric vehicles, hydrogen fuel cells are:

- Faster to refuel

- Capable of longer continuous operation

- Lighter over long distances due to lower storage weight

With fuel cell buses already deployed in cities like Beijing, Tokyo, and Seoul, this car hints at a hydrogen-powered future beyond public transit—one where consumers don’t sacrifice speed or convenience for sustainability.

#HydrogenCar #CleanTech #FuelCellVehicle #EVAlternative #ZeroEmissions

Keto Cream Cheese Noodles are a delicious and easy low-carb alternative to pasta! Perfect for your next meal. #Keto #LowCarb #HealthyEating #Recipe #Delicious

Ingredients:
- 4 large eggs
- 3 tablespoons cream cheese, softened
- 2 teaspoons garlic powder
- 1/2 teaspoon salt
- 1/4 teaspoon black pepper

Directions:
1. Preheat your oven to 350°F (175°C) and get ready for some kitchen magic!
2. In a blender, toss in the eggs, cream cheese, garlic powder, salt, and black pepper. Blend everything until smooth and creamy—trust me, it'll smell delicious!
3. Grab a rimmed baking sheet and line it with parchment paper. Pour your silky egg mixture onto the parchment and spread it out into a thin, even layer.
4. Pop it in the oven and bake for about 12 minutes. You'll know it's ready when the edges turn a lovely golden brown and the center is set.
5. Once baked, let it cool for a few minutes—patience is key! Then, carefully lift the parchment paper to remove your noodle sheet from the baking tray.
6. Using a sharp knife or pizza cutter, slice your beautiful noodle sheet into strips. Voilà! You've got keto noodles ready to be served with your favorite keto-friendly sauce.

Nutrition Facts (per serving - makes about 4 servings):
- Calories: 150
- Total Fat: 10g
- Protein: 12g
- Total Carbohydrates: 2g
- Fiber: 0g
- Net Carbs: 2g

This recipe is simple yet satisfying, giving you that comforting noodle experience without the carbs! Enjoy your meal!

Researchers at ETH Zurich, a leading science and technology university in Switzerland, have developed an innovative glow-in-the-dark wood using bioluminescent fungi.

The fungi used, such as Armillaria mellea (commonly known as honey fungus), naturally emit a greenish glow in the dark.

By integrating the fungal mycelium into the wood’s structure, scientists created a hybrid material that glows without the need for external power sources like electricity or batteries.

The project is part of a broader movement in sustainable design and living architecture, where biological systems are incorporated into buildings and public infrastructure.

The wood-fungi composite remains biodegradable and renewable, making it a highly eco-friendly alternative to traditional lighting solutions.

It offers a soft, natural light ideal for pathways, parks, or residential streets, especially in places aiming to reduce energy consumption and light pollution.

This research showcases how biodesign could shape the future of urban environments, blending nature with modern needs.

Beyond aesthetics, it also holds practical value for off-grid areas, emergency lighting, and artistic applications in urban planning.

Hemp is a highly efficient and sustainable crop for paper production.

Just one acre of hemp grown in a single season can produce as much paper as four acres of trees.

Unlike trees that take decades to mature, hemp grows in just a few months and contains more cellulose, which is essential for making paper.

It also requires fewer chemicals to process and regenerates quickly, making it an eco-friendly alternative.

While current costs and infrastructure favor tree-based paper, hemp holds great potential for reducing deforestation and improving sustainability in the future.

A groundbreaking new treatment known as VERVE-102 is poised to revolutionize the way we prevent heart attacks.

Unlike traditional cholesterol-lowering medications like statins, which must be taken daily for life, VERVE-102 offers a one-time gene-editing injection that could provide lifelong benefits.

The therapy works by targeting and deactivating a specific gene in the liver, PCSK9, which plays a crucial role in regulating levels of low-density lipoprotein (LDL) cholesterol — commonly referred to as "bad" cholesterol.

By switching off this gene, the liver becomes more efficient at clearing LDL from the bloodstream, resulting in a sustained 50% reduction in cholesterol levels.

This treatment is currently in clinical trials and has already been administered to patients in the UK, including at University College London and Barts Health NHS Trust.

According to Prof. Riyaz Patel, an academic cardiologist involved in the trials, the results so far have been “spectacular.” He emphasized that this is not a concept out of science fiction — it is real, in practice, and may fundamentally change the landscape of cardiovascular health management.

For patients who struggle with daily medications or who experience side effects from statins, VERVE-102 represents a potential lifesaving alternative that simplifies long-term care.

What makes VERVE-102 especially significant is its gene-editing approach, which involves altering a very small section of DNA to suppress PCSK9 production.

This strategy not only ensures a permanent effect but also opens doors to similar interventions for other chronic conditions.

If approved after further safety and efficacy trials, it could mark a paradigm shift in preventive medicine, reducing the global burden of heart disease, one of the leading causes of death worldwide.