Professor Green – often described as the “father of modern photovoltaics” – is recognized for his pioneering efforts and groundbreaking achievements in high conversion efficiency of silicon photovoltaic materials as well as leading the invention and development of the passivated emitter and rear contact (PERC) solar cell.

PERC technology improved the quality of both the top and rear surfaces of standard silicon solar cells, resulting in greater and more efficient generation. This allowed more electricity to be generated from sunlight, lowering costs and increasing the adoption of sustainable solar energy worldwide.

The technology breakthrough helped increase the conversion efficiency of standard solar cells by over 50% in relative terms from 16.5% in the early 1980s to 25% in the early 2000s. Through successive improvements to cell design and fabrication, Green and his team held the record for silicon cell efficiency for 30 of the past 40 years.

PERC currently dominates solar cell production worldwide. Together with Tunnel Oxide Passivated Contact (TOPCon) cells – first demonstrated by Green’s research group at UNSW – the cells account for more than 90% of solar cells manufactured in the world today at a sales value exceeding $100 billion USD to date.

Development of this technology also resulted in the training of a generation of students who, with Green’s support, applied their acquired skills to establish solar cell manufacturing in Asia. These achievements are unique globally in both the quantum of efficiency improvement and the share of manufacturing capacity.

Professor Green is thrilled to be awarded the Leigh Ann Conn Prize. “From the start of my career, I was determined to do something that would make a difference in the world. I am very proud that, through the efforts of my team and countless others, we now have low-cost solar as a means for reducing the impact of climate change while, at the same time, reducing the cost of energy generation, something not widely thought possible only a decade ago,” said Green.

UNSW’s acting Vice-Chancellor and President Professor George Williams congratulated Professor Green on winning the Prize.

“Martin is a brilliant engineer whose leadership and accomplishments have led to the creation and development of the world’s solar manufacturing industry. His life’s work benefits people around the globe every day and is arguably our biggest weapon to combat global warming and climate change. Everyone at UNSW is proud to celebrate this well-deserved honour with him,” Williams said.

In March 2024, Green will give a public lecture in Louisville about his winning work and achievements, trials and tribulations. He will receive the Conn Prize medal and $50,000 award at a formal ceremony.

“Professor Martin Green is a true pioneer in the field of photovoltaics,” said University of Louisville President Kim Schatzel, who will confer the award. “His work in solar cell technology is of great importance worldwide, and it is an honor to bestow upon him the Leigh Ann Conn Prize.”

The UofL prize is named for the late daughter of Hank and Rebecca Conn, who were university alumni, supporters and the prize benefactors. Their vision to create a legacy in honor of Leigh Ann celebrates scientists with the fortitude, patience, and resiliency to endure renewable energy technology innovation and translation into the marketplace, where impact occurs.

Nominations for the 2025 Leigh Ann Conn Prize competition close Dec. 31, 2024. Criteria and instructions are found at . For more information, contact Andrew Marsh at 502-852-8597 or LeighAnnConnPrize@louisville.edu.

Snaith is recognized for his work on the development of perovskite solar cell technology. This technology enables more electricity to be generated from sunlight, increasing the adoption of sustainable solar energy worldwide. 

Snaith was one of the first people in the world to recognize the potential of metal halide perovskite, a crystalline semiconductor material, as a solar absorber and charge conductor in 2012. In the decade since, he has led the research community in advancing fundamental understanding of perovskite materials and making them practically useful by improving device efficiencies, long-term stability and cost effectiveness.  His ongoing research at the University of Oxford aims to increase the efficiency and durability of perovskite solar cells further with the goal of reducing the overall cost of electricity production.

“This is a wonderful achievement and richly deserved,” said Ian Shipsey, professor and head of the Department of Physics at Oxford. “Henry’s work is indeed ground-breaking; photovoltaic research is vital if we are to address the impact of energy use on the Earth’s climate and Henry’s group is leading the way.”

Snaith’s work on perovskite materials has contributed to Oxford PV’s commercial plans for a perovskite-on-silicon tandem cell. These solar cells, which combine a layer of perovskite on top of conventional silicon, are poised to increase solar power’s practical conversion efficiency beyond 30% in the next decade.

“Professor Snaith’s research is not only at the forefront of science but, as this award recognizes, his practical, commercial approach means that it stands to enormously benefit society in very real terms,” said Laura Herz, professor and associate head for research for the Maths, Physics and Life Sciences division at Oxford. “It is a fantastic example of our research portfolio here at Oxford and I congratulate professor Snaith on this achievement.”

In March, Snaith will give a public lecture in Louisville about his winning work and achievements, trials and tribulations. He will receive the Conn Prize medal and $50,000 award at a formal ceremony.

“The University of Louisville celebrates professor Snaith’s research and clear efforts toward improving our world through technology,” said UofL Interim President Lori Stewart Gonzalez, who will confer the award. “Energy generation from renewables is a defining global challenge. Dr. Snaith’s work renders renewable energy more competitive, reliable and accessible.”

The UofL prize is named for the late daughter of Hank and Rebecca Conn, who are university alumni, supporters and the prize benefactors.

“Henry Snaith is transforming the field of solar energy generation,” Hank Conn said. “It is exciting to celebrate a scientist with the fortitude, patience and resiliency to endure technology commercialization into the marketplace, where impact occurs. That recognition is Leigh Ann’s lasting legacy through the prize.”

Nominations for the 2023 Leigh Ann Conn Prize competition close Dec. 31. Criteria and instructions are found at . For more information, contact Andrew Marsh at 502-852-8597 or LeighAnnConnPrize@louisville.edu.