He cleaned a lagoon… with bubbles

Meet Marino Morikawa, a Peruvian nanoscientist.

When his father called to say the lagoon of his childhood—El Cascajo—had become a dump, Marino left his lab in Japan and flew home.

Using ultra-fine nanobubbles (≈50–100 nm) made with hardware-store parts, he built a natural, chemical-free system that traps pollutants and bacteria:

Inject nanobubbles into the water

As they rise slowly, their ionic charge attracts contaminants

Biofilters with native microorganisms trap and break them down—no chemicals, no disruption to the ecosystem

Results:

✔️ In 13 months, the water was drinkable again

✔️ In 3 years, migratory birds returned

Today, Marino’s mission:

💧 Ultra-effective, low-cost decontamination with zero chemicals

🌍 Active projects at Lake Titicaca and desert oases affected by wastewater from 1.5M+ people

🌱 100 ecosystems restored by 2030, in partnership with local communities

This is deep climate tech in action: simple physics, local biology, real impact.

Would you deploy this in your city?

Credit Ecomedy for the story

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This city ski slope heats and powers 150,000 people—by burning their trash.
It sits on top of Copenhagen’s waste-to-energy plant, CopenHill.

In the late 2000s, the city wanted to shut down coal but still had 440,000 tons of non-recyclable waste to deal with every year.
Instead of burying or exporting it, they turned it into energy.

The challenge: build an incinerator that’s clean, efficient, and embraced by locals.
Danish architects BIG—Bjarke Ingels Group proposed something radical: make it visible, fun, educational, and a true public place.

Enter CopenHill (opened 2017): a sharp, industrial building with high-performance filters to limit emissions.
On the roof: a 400 m ski slope, an 85 m climbing wall, hiking trails, and a 10,000 m² green roof.

It reflects Copenhagen’s ambition to lead on urban sustainability.
CopenHill doesn’t hide waste. It shows it, treats it, and transforms it.

Today, CopenHill =
♻️ 440,000 tons of waste transformed each year
🏠 Heat & power for 150,000 residents
🌱 A green roof, sports, and public space on top of an industrial plant

Would you ski on a power plant?

#climatetech #wastetoenergy #urbaninnovation #CopenHill #Copenhagen #BIG #architecture #sustainability #deeptech #Reactor

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In Georgetown (USA), a full 3D-printed neighborhood is coming online—fast. Not a concept render: real homes, printed on-site, then finished with solar + smart energy controls.

• Speed: printed in about 3 weeks for the shell phase
• Less waste: additive construction = minimal material offcuts
• Energy positive potential: solar panels + smart thermostats to shrink bills and emissions
• Repeatable: scalable playbook for resilient, affordable housing

3D printing cuts concrete use via optimized forms, reduces truck rolls, and accelerates near-zero waste builds. Pair with low-carbon mixes and rooftop PV to push toward net-positive neighborhoods.

• What’s the embodied carbon vs. traditional builds?
• Can we swap to low-carbon cement or geopolymer mixes at scale?
• How do we finance community-level storage to bank daytime solar?

🔔 Subscribe to Reactor for deeptech that scales climate impact.

💬 Would you live in a printed home? Tell us why—or what would make you say yes.

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These giant meshes turn fog into drinking water—no pumps, no power. It’s CloudFisher, a system developed by the German NGO WasserStiftung that captures airborne moisture with technical plastic nets stretched into the wind.

How it works

Zero energy: wind + fog, no electricity required

Durable & recyclable: engineered to resist winds up to 120 km/h

Potable by design: collected water is filtered to WHO standards, then routed to public fountains or cisterns

Why it matters

In Morocco’s Anti-Atlas, a 1,674 m² installation produces ~36,800 L/day for 1,300 people across 5 villages

Each m² of net can harvest up to 22 L/day in foggy conditions

It taps the sky—not aquifers—so it doesn’t disrupt local water cycles

Old wisdom, modern scale

Inspired by centuries-old Andean and Amazigh practices of dew and fog collection—now upgraded with modern materials and deployment at community scale. Already active in 5+ countries.

If you’re building in climate & water:

What would it take to pilot this in your region?

Could schools, clinics, or shelters be first beneficiaries?

Pairing with storage, UV, or remote monitoring—who’s in?

🎥 Credit: EcoMedy for the field footage.

🔔 Subscribe to Reactor for more deeptech that drives real-world sustainability.

💬 Comment where you’d deploy CloudFisher next, and tag a partner we should talk to.

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👋 Imagine a giant vacuum cleaner — but instead of dust, it’s pulling carbon dioxide straight out of the sky.

It’s called Direct Air Capture (DAC), and it’s no longer science fiction. Real plants are running today in Iceland, Texas, and California.

In this episode of Reactor, we break down:

🌬️ How Direct Air Capture actually works — step by step

🧪 The four main DAC technologies (solids, liquids, minerals, electrochemicals)

⚡ Why DAC is only possible now (cheap renewables, better materials, policy, corporate buyers)

📉 The scalability challenge — costs, energy appetite, storage, and risks

🌍 Where the first plants are already running (Climeworks, Heirloom, 1PointFive)

This is Part 1 of a 3-part DAC series:

1️⃣ How DAC Works (and Why Now) ← this video

2️⃣ How DAC Companies Make Money (coming soon)

3️⃣ The DAC Field Guide: Startups & Scaleups

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🔑 Key Takeaways

• DAC is industrial chemistry, not magic.
  
  
• It’s expensive today ($600–$1,200/ton) but scaling fast.
  
  
• Cheap clean energy + policy support make it viable in 2025.
  
  
• Corporates like Microsoft, JPMorgan, and Amazon are already buying DAC credits.
  
  

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📚 Resources & Links

👉 Climeworks Mammoth plant: https://climeworks.com/technology

👉 Carbon Engineering explainer: [https://carbonengineering.com/our-tec...](https://carbonengineering.com/our-tec...)

👉 Heirloom DAC tech: https://heirloomcarbon.com/technology

👉 Carbfix CO₂ mineralization: [https://www.carbfix.com/how-it-works](

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💧☀️ In Australia, 1 trillion litres of water vanish every year — lost to evaporation.

But what if the solution was simple… and powerful?

Floating solar panels are changing the game.

They shade reservoirs, cutting water evaporation by up to 50%, *while also generating clean electricity*. Even better, the cool water underneath helps the panels work more efficiently than land-based solar farms.

That means:

✅ Saving billions of litres of water every year

✅ Powering homes, farms, and even hydrogen facilities

✅ Fighting drought and climate change at the same time

From one brilliant idea comes two big solutions: more water + more clean energy.

Because sustainability doesn’t have to be complicated. It just needs the right ideas in the right places. 🌍✨

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🔔 Subscribe for more stories on deeptech & climate tech innovations!

#FloatingSolar #CleanEnergy #Australia #ClimateTech #WaterInnovation #Sustainability

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From the ice rink to the fight against climate change.

Brent Story once wore the jersey for Team Canada in hockey. Now he’s leading EmitiQ — a company making sustainability simpler for businesses around the world.

Instead of endless reports and confusing rules, EmitiQ helps companies:

✔️ Measure emissions automatically

✔️ Follow climate rules correctly

✔️ Work with suppliers to cut carbon at the source

Because climate action shouldn’t be complicated — it should be possible.

👉 Watch how one athlete turned innovator is making climate action simple.

emitiq.com

#ClimateTech #Sustainability #DeepTech #Storytelling

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Are you building cutting-edge tech… but struggling to land your first customers?

This video is for YOU.
Whether you’re in deeptech, climate tech, or any science-based venture, I’ll walk you through 6 actionable sales strategies to help you go from prototype to paying customers — faster.

👇 What we’ll cover:
0:00 Intro — Why deeptech sales are hard
1:50 Tip 1: Founder-Led Sales from Day One
7:15 Tip 2: Sell the Vision, Not the Features
13:50 Tip 3: Evangelize Your Mission Every Day
19:35 Tip 4: Track Your Sales Funnel Like a Scientist
25:20 Tip 5: Prospect Daily – Never Stop Filling the Funnel
31:00 Tip 6: Embrace the CEO Role – Sell, Don’t Build
37:00 Bonus Q&A & Action Plan

🧠 What you’ll learn:

How to sell your tech before it’s even ready

Why YOU (the founder) need to be the first salesperson

How to get customers excited about a complex product

What metrics to track (and how) to close more deals

Why consistency in outreach is more important than perfection

When to stop building and start selling

💥 Who this is for:

Deeptech startup founders

Climate tech entrepreneurs

Academic spinouts

Technical CEOs learning to sell

Founders stuck at zero revenue

🧪 Why me?
I’ve launched a deeptech company, led a startup accelerator, and coached dozens of founders through early sales and survival. I’ve made every mistake so you don’t have to. This is the playbook I wish I had 10 years ago.

📌 Subscribe to REACTOR for more content like this:
/ @reactor-podcast

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#deeptech #climatetech #startups #b2bsales

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