Dr Joseph Mooney — Sir Bernard Crossland award winner, Trinity College Dublin alumnus and former postdoctoral researcher whose work spans advanced engineering research, climate and energy innovation, and technology commercialisation — has recently been recognised in the prestigious Forbes '30 under 30' list.
Dr Mooney was recently named to the Forbes 30 Under 30 list for 2026 in the Energy and Green Tech category, recognising his contribution to climate and sustainability focused engineering and entrepreneurship. The recognition highlights emerging leaders whose work is shaping the future of global energy and environmental systems.
Dr Mooney previously held a postdoctoral position at Trinity College Dublin School of Engineering, where he worked with Professors Robinson, O'Shaughnessy, Pakdel, Persoons, Gibbons and Lupoi and Huawei Technologies Sweden AB on the thermal management of 5G wireless infrastructure. This research addressed one of the key technical challenges facing next generation communications networks, improving performance, efficiency, and sustainability.
Dr Joseph Mooney.
He is also a Trinity alumnus, having completed an MSc in Innovation and Entrepreneurship at Trinity Business School. This combination of deep technical expertise and entrepreneurial training has played a central role in shaping his career, particularly his focus on translating research into real world impact.
Currently, Dr Mooney is a research engineer at the Georgia Institute of Technology and co-founder and CEO of WattAir, a company co-founded with Professor Bachir El Fil, a professor of mechanical engineering at Georgia Tech.
WattAir is focused on commercialising water and energy technologies with global impact. His research and innovation interests span data centre thermal management, building cooling, water harvesting, and the green energy transition. WattAir builds directly on Dr Mooney’s academic training in thermal-fluid sciences and systems engineering, reflecting Trinity’s emphasis on research that delivers tangible societal and environmental benefit.
Dr Mooney says water scarcity and access to clean water are emerging as binding constraints on economic growth and infrastructure resilience worldwide, with nearly two billion people lacking access to safe drinking water and global water demand projected to exceed supply by ~40% by 2030.
At the same time, energy-intensive infrastructure is expanding rapidly in high-GDP economies; in Ireland, data centres already account for ~21% of national electricity consumption, a figure projected to rise significantly as digital services and AI workloads grow. These facilities also generate large quantities of low-grade waste heat and consume substantial volumes of water for cooling, placing additional pressure on both electrical grids and municipal water systems.
Using waste heat to extract water directly from ambient air
Atmospheric water harvesting presents an opportunity to address this coupled challenge by using waste heat to extract water directly from ambient air, transforming an otherwise discarded energy stream into a valuable local resource while improving overall system efficiency and reducing strain on water and power infrastructure.
Water scarcity as a function of a country's GDP.
WattAir is developing water-from-air and cooling technologies that reuse low-grade waste heat from data centres to produce clean water, turning a thermal by-product into a valuable resource. Data centres already account for over 20% of Ireland’s electricity demand, and many facilities rely on significant volumes of water for cooling and humidity control.
By harvesting water directly from the air using waste heat, WattAir’s approach can reduce both electrical cooling loads and dependence on municipal water supplies. This integrated solution supports more sustainable data-centre growth while easing strain on Ireland’s power and water infrastructure.
Dr Mooney’s career includes a series of prestigious international fellowships and awards. He is a former MIT Postdoctoral Research Fellow, a Marie Skłodowska-Curie Postdoctoral Fellow with the European Commission, and a recipient of a Breakthrough Energy Explorer Grant. He completed his PhD through CONNECT and Nokia Bell Labs, focusing on the thermal management of 5G WiFi technologies.
Alongside his research and entrepreneurial work, Dr Mooney is deeply engaged in mentorship, collaboration, and professional service. He was an advisor to MIT and Harvard Climate and Energy Ventures, a Science Foundation Ireland CONNECT Centre Affiliate Investigator, a member of Engineers Ireland, and a mentor and advisor across multiple Georgia Tech & MIT research and undergraduate programmes.
Excellence in research communication
He has supervised students at undergraduate and postgraduate level and has been recognised for excellence in research communication, including receiving the ASME IMECE Best Presentation Award and the Sir Bernard Crossland Symposium best presentation award.
TCD said: "The School of Engineering congratulates Dr Joseph Mooney on his Forbes 30 Under 30 recognition and his continued impact across engineering, climate innovation, and entrepreneurship. His career reflects the strength of Trinity’s research culture and the value of interdisciplinary education in addressing global challenges."
The Forbes annual rankings, which spotlight 600 young leaders across 20 industries, are regarded as one of the most influential barometers of emerging global talent, and Dr Mooney’s inclusion places him among a select group shaping the future of energy, sustainability and infrastructure.
For Dr Mooney, aged 28, the recognition is not framed as a personal milestone so much as a validation of the problem he and his company are trying to solve, he told the Sligo Weekender.
As founder and chief executive of WattAir, a green technology startup established in 2025, he is focused on one of the most pressing and interconnected challenges facing the world: the growing strain on water and energy systems.
WattAir is building technology that harvests water directly from the atmosphere while simultaneously improving energy efficiency, a dual approach that reflects Mooney’s belief that water scarcity and energy inefficiency cannot be addressed in isolation.
In a year that saw more than 10,000 nominations considered by Forbes, the judging panel included high-profile figures such as pop star Olivia Rodrigo, actress and activist Yara Shahidi, and billionaire entrepreneur Palmer Luckey. Against that competitive backdrop, Mooney’s inclusion in the energy and green tech category stands out not only because of his age, but because of the ambition and clarity of WattAir’s mission.
“More than anything, I see this as a signal of belief in the problem we’re working on – making sustainable water and cooling a reality for people and industries under stress – rather than a personal achievement,” he said in a statement following the announcement.
Developed an early interest in engineering and problem-solving
Dr Mooney’s journey to this point began far from the venture capital corridors of North America. Growing up in Drumcliffe, Co Sligo, he developed an early interest in engineering and problem-solving, interests that would later shape an academic and professional path rooted in science and applied research.
Now a research engineer at the Georgia Institute of Technology, one of the world’s leading engineering schools, Dr Mooney has immersed himself in materials science, thermodynamics and energy systems, disciplines that underpin WattAir’s core technology.
At the heart of WattAir’s innovation is a process that uses hydrogel-coated heat exchangers to capture moisture from the air. While atmospheric water harvesting is not a new concept, WattAir’s approach is designed to be far more energy-efficient and scalable than existing systems.
By carefully controlling how heat, air and moisture interact, the technology can draw water from even relatively dry air while making use of low-grade or waste heat that would otherwise be lost. The result is a decentralised system capable of producing water while reducing overall energy consumption.
Targeting sectors where water and energy demands collide most sharply
The potential applications are wide-ranging. WattAir is targeting sectors where water and energy demands collide most sharply, including agriculture, HVAC systems, data centres and off-grid installations. In agriculture, access to reliable water supplies is increasingly uncertain due to climate change, while energy costs continue to rise.
In data centres, which underpin the digital economy, enormous amounts of energy are expended on cooling, often in regions already facing water stress. By integrating water harvesting with cooling and heat recovery, WattAir aims to turn inefficiency into resilience.
The company has already secured $300,000 in initial funding, an early vote of confidence from investors in both the technology and the vision behind it.
That vision is grounded in a simple but powerful idea: that every joule of energy and every drop of water should serve more than one purpose. WattAir’s philosophy is that the traditional separation of water and energy systems has led to waste on both fronts, and that smarter, more integrated design can unlock significant gains.
Reimagining infrastructure
This systems-level thinking is a recurring theme in Dr Mooney’s work. Rather than chasing incremental improvements, he has consistently argued for reimagining infrastructure in a way that reflects the realities of a warming world and a growing global population.
His company’s technologies are designed to be compact, modular and adaptable, capable of being deployed where they are most needed rather than relying on large, centralised networks that are vulnerable to disruption.
Dr Mooney is one of several Irish innovators recognised on this year’s North America list, underlining the depth of Irish talent making an impact on the global stage.
Among the others are Jamie Palmer, co-founder and chief technology officer of Icarus Robotics, and the Irish co-founders of Ulysses, a San Francisco-based startup building autonomous ocean vehicles. But while those companies are working on challenges ranging from space robotics to maritime security, Dr Mooney’s focus on water and energy places him squarely at the centre of debates about sustainability and climate resilience.
What sets WattAir apart is not just its technical approach, but its emphasis on practicality and deployment. The company’s stated aim is to enable farms, industries and communities to produce their own water and cooling using energy that is already available, whether from sunlight, ambient air or waste heat.
In doing so, it seeks to reduce dependence on overstretched grids and fragile supply chains, offering a measure of autonomy in an increasingly uncertain world.
Identifying individuals who go on to shape industries and influence policy
Forbes’ '30 Under 30' list has a track record of identifying individuals who go on to shape industries and influence policy, and inclusion often brings increased scrutiny as well as opportunity.
For Dr Mooney, that attention is welcome if it helps accelerate progress on the underlying problem.
His response to the honour reflects a broader mindset common among climate-focused entrepreneurs, one that prioritises impact over profile and collaboration over competition.
As water scarcity and energy efficiency move ever higher up the international agenda, the work being done at WattAir suggests that some of the most important solutions may come not from massive infrastructure projects, but from smarter, more integrated systems designed by people willing to rethink the fundamentals. In that context, Dr Mooney’s inclusion on the Forbes list is less an endpoint than an early marker of a career focused on turning scientific insight into real-world resilience.