If there is ever a wake-up call, this is it. The ferocious fires ringing across Los Angeles sends a clear message: we need to act on climate change now. Human-caused climate change is responsible for about 25% of the fuel available for fires.

Not just LA, climate change is also wreaking havoc in other parts of the world. In autumn 2024, for instance, deadly floods caused devastation throughout an arc stretching from Spain to the Balkans and Morocco to Libya.

What’s the key cause of climate change? Burning fossil fuels to generate power and manufacture products. And who does that? Industries such as manufacturing, transportation, construction, and mining—they are to blame for climate change.

However, with increasing pressure from governments and consumers to reduce their carbon footprint, these industries are now turning to cutting-edge technologies to achieve net-zero emissions.

Here, we’ll explore a few innovative solutions that are leading this transformation.

#1 Green Hydrogen Tech

Hydrogen has been around forever, but green hydrogen? That’s a relatively new player in the clean energy game.

The Green Hydrogen Organisation explains that this hydrogen is produced by electrolysis—a technique that uses renewable electricity to divide water into hydrogen and oxygen. The best part is that it’s completely clean: no nasty carbon emissions whatsoever.

Green hydrogen is incredibly versatile. It can be used as a clean fuel for heavy industries like steel and cement manufacturing, where cutting emissions has been historically tough.

It’s also a game-changer for the transportation sector, especially where battery-powered options aren’t always practical. A study published by the University of Michigan (U-M) researchers revealed that green hydrogen can be used as a fuel for heavy-duty road, aviation, rail, and marine transportation.

Japan is already betting big on green hydrogen as it is advancing the development of hydrogen-related technologies. Within the U.S., Michigan is all set to become the hub of green hydrogen production as a global leader ramps up manufacturing expansion in the state.

#2 Solid-State Carbon Capture

In 2023, global CO2 emissions from fossil fuels and industry totaled 37.01 billion metric tons. That’s massive.

Industries can prevent a significant portion of these emissions from reaching the atmosphere. How? Through the adoption of solid-state carbon technology.

Solid-state carbon capture traps CO2 directly from the air or industrial emissions before it escapes into the atmosphere.

According to Atoco, this technology efficiently captures and eliminates carbon dioxide directly from industrial emissions—post-combustion carbon capture—and from the air—direct air capture.

After capturing the CO2, the Industrial Decarbonization Network adds that it can be used to improve oil extraction efficiency or stored safely below.

Unlike traditional carbon capture methods, this technology is highly efficient, scalable, and energy-saving. That makes it a promising option for hard-to-abate industries.

Many countries have already adopted this technology. The U.S. and Brazil lead the way, with 60% of worldwide capacity combined. Rounding out the top 5 are Canada, Australia, and China.

#3 Smart Grids

Traditional electricity grids are not equipped to handle the complexities of modern energy demands. They are rigid and outdated, and they struggle to integrate renewable energy sources like solar and wind.

Not surprisingly, smart grids have started to gain traction. Electropages defines a smart grid as a power distribution network that uses advanced technologies to optimize energy transmission and consumption.

Smart grids use advanced sensors, artificial intelligence, and real-time data analytics to create a more efficient and flexible energy system. They can predict electricity demand, identify outages instantly, and automatically reroute power to where it’s needed most.

And perhaps that is why T&D World, in its recent publication, states that smart grids are the ticket to a successful decarbonized industry.

One of the most impressive features of smart grids is their ability to seamlessly integrate decentralized energy sources—rooftop solar panels or wind turbines—into the larger grid.

Amsterdam is a case in point. The City-Zen project outfitted 10,000 buildings of this project with smart grid technology to reduce emissions.

In addition, the city’s Flexpower scheme allows for flexible electric vehicle charging, with fees adjusted based on grid demands. Further, Amsterdam intends to install smart meters in approximately 200,000 households to monitor real-time energy usage.

It’s clear: the path to net-zero emissions isn’t just about one silver bullet solution but about combining these innovative technologies in smart ways.

While some of these technologies are still maturing, they are developing at an incredible pace. Plus, the potential for positive impact is enormous. The only thing to do now is to ramp up investment, scale these innovations, and integrate them into global efforts to combat climate change. These efforts will pay off in the long run.