Aerospace

At Qdot, we develop advanced thermal management solutions that enable the next generation of flight.

From lightweight, binder-jet printed heat exchangers to high-performance battery and fuel cell cooling systems, our technologies are engineered for the demanding conditions of aerospace.

 We combine deep aerothermal expertise with cutting-edge manufacturing to deliver components that improve efficiency, enhance safety, and unlock new possibilities in propulsion and power systems. Whether for more sustainable aviation, defence, or space, Qdot’s innovations help our partners achieve greater performance while meeting the industry’s most stringent standards.

We are experts at designing hybrid propulsion systems; and this know-how combined with our technologies allows airframers and propulsion system Tier-1s to achieve a strong cost and performance advantage in hybrid and zero-emission flight.

Aerospace

At Qdot, we develop advanced thermal management solutions that enable the next generation of flight.

From lightweight, binder-jet printed heat exchangers to high-performance battery and fuel cell cooling systems, our technologies are engineered for the demanding conditions of aerospace.

 We combine deep aerothermal expertise with cutting-edge manufacturing to deliver components that improve efficiency, enhance safety, and unlock new possibilities in propulsion and power systems. Whether for more sustainable aviation, defence, or space, Qdot’s innovations help our partners achieve greater performance while meeting the industry’s most stringent standards.

We are experts at designing hybrid propulsion systems; and this know-how combined with our technologies allows airframers and propulsion system Tier-1s to achieve a strong cost and performance advantage in hybrid and zero-emission flight.

Defence

Qdot delivers advanced thermal management systems engineered for mission-critical defence applications.

From high-power radar and directed energy systems to next-generation propulsion and power electronics, our solutions are designed to operate reliably in the harshest environments. Leveraging our unique binder-jet printed heat exchangers and world-leading aerothermal expertise, we provide compact, lightweight, and robust cooling technologies that enhance performance and resilience on land, sea, and air platforms.

By pushing the boundaries of thermal design, Qdot helps defence partners gain a decisive edge in capability, efficiency, and operational readiness.

Fusion Energy

Qdot applies its advanced thermal management expertise to one of the greatest engineering challenges of our time – making fusion power a commercial reality.

Our high-performance heat exchangers and cooling systems are designed to handle the extreme temperatures, pressures, and neutron environments inherent to fusion.

By combining innovative manufacturing with deep aerothermal design capability, we accelerate progress toward safe, sustainable, and scalable clean energy.

Fusion Energy

Qdot applies its advanced thermal management expertise to one of the greatest engineering challenges of our time – making fusion power a commercial reality.

Our high-performance heat exchangers and cooling systems are designed to handle the extreme temperatures, pressures, and neutron environments inherent to fusion.

By combining innovative manufacturing with deep aerothermal design capability, we accelerate progress toward safe, sustainable, and scalable clean energy.

Data Centres

The next generation of data centres will be powered by chips with heat densities approaching those found in nuclear fusion reactors.

Qdot’s proprietary heat sink technology is engineered to meet this challenge, enabling reliable operation at unprecedented heat flux levels for direct-to-chip cooling.

By efficiently transferring more heat directly into liquid coolants, our solutions reduce reliance on evaporative cooling and allow the use of simple air coolers at the building level – cutting water consumption and improving overall sustainability. With this breakthrough in thermal management, Qdot is helping data centres scale to meet the world’s growing digital demand while reducing their environmental impact.

Motorsport

Motorsport demands thermal solutions that deliver maximum performance within the tightest design constraints. Qdot’s binder-jet printed heat exchangers offer unprecedented flexibility in packaging, allowing integration into aerodynamic surfaces to minimise drag.

Our rapid design and manufacturing process enables quick iterations of prototypes, helping teams test, adapt, and optimise cooling strategies within compressed development cycles.

By combining lightweight, high-efficiency exchangers with deep aerothermal expertise, Qdot provides racing teams with the competitive edge needed to perform at the highest level.

Motorsport

Motorsport demands thermal solutions that deliver maximum performance within the tightest design constraints. Qdot’s binder-jet printed heat exchangers offer unprecedented flexibility in packaging, allowing integration into aerodynamic surfaces to minimise drag.

Our rapid design and manufacturing process enables quick iterations of prototypes, helping teams test, adapt, and optimise cooling strategies within compressed development cycles.

By combining lightweight, high-efficiency exchangers with deep aerothermal expertise, Qdot provides racing teams with the competitive edge needed to perform at the highest level.

Automotive

Decarbonising heavy-duty vehicles in construction, mining, and industrial applications requires thermal solutions that can handle extreme loads, long duty cycles, and harsh environments.

Qdot’s advanced heat exchangers and cooling systems enable the electrification and hydrogen-powered transformation of these sectors, delivering efficient thermal management for high-power battery packs, fuel cells, and power electronics.

With flexible packaging, robust performance, and rapid prototyping, we help OEMs accelerate the transition to cleaner, more sustainable off-highway vehicles – without compromising reliability or productivity.