In the News - Pecunia Research Group Articles

Our research has been covered by mainstream media as well as science- and engineering-focused news outlets, for a total of more than 100 news items—see below for a selection of them.

Selected Interviews

• 2021/01 Interview with CBS (ViacomCBS) (USA)
• 2020/11 Interview with British Broadcasting Corporation (BBC) (UK)
• 2020/11 Interview with China Global Television Network (CGTN) (China)
• 2020/11 Interview with Materials World (UK)
• 2020/11 Interview with Tech Briefs (USA)
• 2020/10 Interview with Materials World (UK)

Selected News Items

• 2021/01 ‘Photovoltaics come indoors to power wireless smart devices’, Materials World (UK)
• 2021/01 ‘鉛フリーで環境に優しい屋内用太陽電池を開発——部屋の明かりでスマホを充電’, Fabcross (Japan)
• 2020/12 ‘Lighting up devices - recharging through ambient energy’, Materials World (UK)
• 2020/11 ‘Scientists develop solar cells that harvest energy from indoor light’, China Global Television Network (CGTN) (China) 
• 2020/11 ‘Technology able to collect energy from indoor lights to aid efficiency’, China Daily (China)
• 2020/11 ‘New green materials could power smart devices using ambient light’, Imperial College London website (UK)
• 2020/11 ‘INNOVATION: Green materials can power smart devices at home, office’, The Times of India (India)
• 2020/11 ‘New green materials could power smart devices using ambient light’, University of Cambridge website (UK)
• 2020/11 ‘Green materials can power smart devices at home, office’, The Tribune (India)
• 2020/11 ‘La casa che autoalimenta il tuo smartphone’, OsservatorioCQ (Italy)
• 2020/11 ‘Novel, Green Materials Could be Useful for Indoor Light Harvesting’, AZOMaterials (UK)
• 2020/11 ‘Indoor solar cells based on lead-free perovskite-inspired materials’, PV Magazine (Germany)
• 2020/11 ‘New green materials could power smart devices using ambient light’, EurekAlert! (USA)
• 2020/11 ‘Smart devices could be powered by indoor light’, Verdict (UK)
• 2020/11 ‘安全無重金屬疑慮，無鉛鈣鈦礦太陽能在室內就可發電’, TechNews (Taiwan)
• 2020/11 ‘La luce ambinetale potrebbe ricaricare il nostro cellulare’, FocusTech (Italy)
• 2020/11 ‘Neue grüne Materialien könnten intelligente Geräte mit Umgebungslicht betreiben’, CHEMIE.DE (Germany)
• 2020/11 ‘新型无铅钙钛矿材料在室内光伏应用效率上创下新高’, SinaTechnology (China)
• 2020/11 ‘Nuevos materiales ecológicos para paneles solares son capaces de utilizar la luz ambiental para alimentar dispositivos inteligentes’, Energía Renovables (Spain)
• 2020/11 ‘中英科学家研发以无铅钙钛矿作为可穿戴传感器供电材料’, RFIDWorld (China)
• 2020/11 ‘Green materials can power smart devices at home, office’, Telangana Today (India)
• 2020/11 ‘Fotovoltaico da interno, e se producessimo energia indoor?’, Innovazione (Italy)
• 2020/10 ‘Easy-to-make, ultra-low power electronics could charge out of thin air’, TechXplore (UK)
• 2020/10 ‘New Method to Build Cost-Effective Electronics that Recharge out of Thin Air’, AZOMaterials (UK)
• 2020/10 ‘Easy-to-make, ultra-low-power electronics could charge out of thin air’, University of Cambridge website (UK)
• 2017/11 ‘Inkjet-Printed Nanophotonics’, Optics & Photonics News (USA)
• 2017/10 ‘Ink jet printed photonic structures’, Electronics Weekly (UK)
• 2017/10 ‘Ultra-high resolution inkjet technique prints drops capable of trapping light’, The Engineer (UK)
• 2017/10 ‘Ultrasmall Ink Droplets Trap Light on Photonic Crystal’, Photonics Media (USA)
• 2017/10 ‘Traps Written for Light with Tiny Ink Droplets Developed’, Electronics 360 (USA)
• 2017/10 ‘Microscopic pen could draw structures small enough to trap light’, Engineering and Technology (E&T) (UK)
• 2017/10 ‘Scientists write ‘traps’ for light with tiny ink droplets’, University of Cambridge website (UK)