Tailored assembly of molecular water oxidation catalysts on photoelectrodes for artificial photosynthesis
Solar‐to‐chemical energy conversion, or so‐called artificial photosynthesis, is a promising
technology enabling sustainable production and use of various chemical compounds such …
technology enabling sustainable production and use of various chemical compounds such …
CelluPhot: Hybrid Cellulose−Bismuth Oxybromide Membrane for Pollutant Removal
The simultaneous removal of organic and inorganic pollutants from wastewater is a complex
challenge and requires usually several sequential processes. Here, we demonstrate the …
challenge and requires usually several sequential processes. Here, we demonstrate the …
Toward shape-controlled metal oxynitride and nitride particles for solar energy applications
D Abeysinghe, SE Skrabalak - ACS Energy Letters, 2018 - ACS Publications
Photocatalytic water splitting is a promising platform for clean and renewable energy.
Photocatalysts that absorb visible light are critically needed to efficiently harness solar …
Photocatalysts that absorb visible light are critically needed to efficiently harness solar …
Stability and degradation of (oxy) nitride photocatalysts for solar water splitting
Advancing towards alternative technologies for the sustainable production of hydrogen is a
necessity for the successful integration of this potentially green fuel in the future …
necessity for the successful integration of this potentially green fuel in the future …
Quaternary core–shell oxynitride nanowire photoanode containing a hole-extraction gradient for photoelectrochemical water oxidation
Z Ma, T Thersleff, AL Görne, N Cordes… - … applied materials & …, 2019 - ACS Publications
A nanowire photoanode SrTaO2N, a semiconductor suitable for overall water-splitting with a
band gap of 2.3 eV, was coated with functional overlayers to yield a core–shell structure …
band gap of 2.3 eV, was coated with functional overlayers to yield a core–shell structure …
Exploring the Origins of Improved Photocurrent by Acidic Treatment for Quaternary Tantalum-Based Oxynitride Photoanodes on the Example of CaTaO2N
Quaternary tantalum-based oxynitrides ATa (O, N) 3, with electronic band gaps between 1.8
and 2.4 eV, are promising materials for photochemical water-splitting. The tailoring of their …
and 2.4 eV, are promising materials for photochemical water-splitting. The tailoring of their …
An MnNCN-Derived Electrocatalyst for CuWO4 Photoanodes
M Davi, M Mann, Z Ma, F Schrader, A Drichel… - Langmuir, 2018 - ACS Publications
CuWO4 is a photoanode candidate in neutral pH, and manganese-based oxygen evolution
reaction electrocatalysts are of high interest due to their low price and low toxicity …
reaction electrocatalysts are of high interest due to their low price and low toxicity …
Augmenting the Photocurrent of CuWO4 Photoanodes by Heat Treatment in the Nitrogen Atmosphere
Z Ma, O Linnenberg, A Rokicinska… - The Journal of …, 2018 - ACS Publications
CuWO4 is a potential photoanode candidate with a band gap of 2.2–2.4 eV for
photoelectrochemical (PEC) water oxidation in neutral electrolytes. We present a facile …
photoelectrochemical (PEC) water oxidation in neutral electrolytes. We present a facile …
Oxynitride thin films versus particle-based photoanodes: a comparative study for photoelectrochemical solar water splitting
The solar water splitting process assisted by semiconductor photocatalysts attracts growing
research interests worldwide for the production of hydrogen as a clean and sustainable …
research interests worldwide for the production of hydrogen as a clean and sustainable …
Band Gap Tuning in Bismuth Oxide Carbodiimide Bi2O2NCN
Layered bismuth oxides exhibit a broad range of tunable physical properties as a result of
their excellent structural versatility which facilitates compositional substitutions at both …
their excellent structural versatility which facilitates compositional substitutions at both …