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van Santen, Jeffrey A.; Jacob, Grégoire; Singh, Amrit Leen; Aniebok, Victor; Balunas, Marcy J.; Bunsko, Derek; Neto, Fausto Carnevale; Castaño-Espriu, Laia; Chang, Chen; Clark, Trevor N.; et al (, ACS Central Science)
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Radhakrishnan, Sruthi; Park, Jun Hyoung; Neupane, Ram; de los Reyes, Carlos A.; Sudeep, Parambath M.; Paulose, Maggie; Martí, Angel A.; Tiwary, Chandra Sekhar; Khabashesku, Valery N.; Varghese, Oomman K.; et al (, Particle & Particle Systems Characterization)Abstract Quantum dots encompass a broad spectrum of optical, catalytic, and electrochemical properties bringing in novel applications in catalysis, imaging, displays, and optoelectronics. Herein, the unanticipated broad‐spectrum light absorption and high fluorescence quantum yield in fluorinated boron nitride (FBN) quantum dots are discussed. A heterostructure of FBN quantum dots with a wide‐bandgap semiconductor, titania nanotube arrays, exhibits high photocatalytic activity as evidenced by high external quantum efficiency extending from ultraviolet to green region of the solar spectrum (≈24% at 400 nm). The high activity is confirmed using photoelectrochemical hydrogen evolution experiments. Further, it is demonstrated that high fluorescence quantum yield could be tapped for the detection of glycolytic activity in cancer cells compared to normal cells. This finding could shift the paradigm of molecular detection using quantum dots. The 0D structure and the gap states introduced through fluorination are believed to be responsible for these unprecedented characteristics of boron nitride.more » « less
