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chemistry, physical (14) 14
materials science, multidisciplinary (13) 13
physics, condensed matter (11) 11
chemistry, multidisciplinary (10) 10
physics, applied (10) 10
solar-to-fuel conversion (10) 10
artificial photosynthesis (9) 9
brennstoff (9) 9
carbon dioxide (9) 9
conversion (9) 9
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photocatalysis (9) 9
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water (9) 9
fuels (8) 8
natural gas (8) 8
reduction (8) 8
adding materials to fuels or fires to reduce smoke orundesirable deposits or to facilitate soot removal (7) 7
blasting (7) 7
chemistry (7) 7
firelighters (7) 7
fuels not otherwise provided for (7) 7
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hydrogen (7) 7
lighting (7) 7
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lubricants (7) 7
mechanical engineering (7) 7
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peat (7) 7
petroleum, gas or coke industries (7) 7
photosynthesis (7) 7
ranges (7) 7
solar heat collectors (7) 7
solar heat systems (7) 7
synthetic natural gas obtained by processes not covered bysubclasses c10g, c10k (7) 7
technical gases containing carbon monoxide (7) 7
ventilating (7) 7
weapons (7) 7
carbon-dioxide (6) 6
climate change mitigation technologies related to buildings,e.g. housing, house appliances or related end-userapplications (6) 6
climate change mitigation technologies related totransportation (6) 6
general tagging of cross-sectional technologies spanning over several sections of the ipc (6) 6
general tagging of new technological developments (6) 6
nanostructure (6) 6
photocatalysts (6) 6
reduction of greenhouse gas [ghg] emissions, related to energygeneration, transmission or distribution (6) 6
solar‐to‐fuel conversion (6) 6
technical subjects covered by former uspc cross-reference art collections [xracs] and digests (6) 6
technologies or applications for mitigation or adaptation againstclimate change (6) 6
water splitting (6) 6
catalysis (5) 5
catalysts (5) 5
combustion engines (5) 5
feed:burnables (5) 5
hot gas or combustion-product positive-displacement engineplants (5) 5
hot-gas or combustion-product engine plants (5) 5
nanoparticles (5) 5
not otherwise provided for (5) 5
solar-to-fuel (5) 5
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use of waste heat of combustion engines (5) 5
catalyst (4) 4
climate change mitigation technologies in the production orprocessing of goods (4) 4
co2 (4) 4
compounds thereof (4) 4
domestic hot-water supply systems (4) 4
domestic- or space-heating systems, e.g. central heatingsystems (4) 4
dynamics (4) 4
electrocatalysis (4) 4
elements or components therefor (4) 4
energy & fuels (4) 4
hydrogen-production (4) 4
inorganic chemistry (4) 4
inorganic, organic, physical, and analytical chemistry (4) 4
non-metallic elements (4) 4
solar energy conversion (4) 4
solar to fuel conversion (4) 4
solar‐to‐fuel (4) 4
treatment of water, waste water, sewage, or sludge (4) 4
apparatus therefor (3) 3
artificial leaf (3) 3
basic electric elements (3) 3
climate change mitigation technologies related to wastewatertreatment or waste management (3) 3
co (3) 3
co2 reduction (3) 3
combined heating and refrigeration systems (3) 3
earth drilling (3) 3
efficiency (3) 3
electricity (3) 3
electrocatalysts (3) 3
electrolytic or electrophoretic processes (3) 3
electrolytic or electrophoretic processes for the productionof compounds or non-metals (3) 3
engine plants in general (3) 3
fixed constructions (3) 3
fossil fuels (3) 3
gas-flow silencers or exhaust apparatus for internalcombustion engines (3) 3
gas-flow silencers or exhaust apparatus for machines orengines in general (3) 3
heat exchange in general (3) 3
heat pump systems (3) 3
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Nano Letters, ISSN 1530-6984, 03/2016, Volume 16, Issue 3, pp. 1776 - 1781
Journal Article
Advanced Energy Materials, ISSN 1614-6832, 07/2016, Volume 6, Issue 14, p. n/a
In article number 1600583, Yong‐Hoon Kim, Jeung Ku Kang, and co‐workers describe core‐shell metal oxides with energy states enabling fast photo‐catalytic... 
solar‐to‐fuel conversion | visible light absorption | energy states | photocatalysts | efficient charge transfer | solar-to-fuel conversion
Journal Article
Journal Article
Advanced Materials, ISSN 0935-9648, 10/2015, Volume 27, Issue 39, pp. 6075 - 6075
Well‐designed hetero‐nanostructural plasmonic photocatalysts with a multichannel sensitization effect on the charge‐carrier dynamics process are developed by... 
charge separation | heterojunction interfaces | solar‐to‐fuels conversion | photocatalysis | surface plasmon resonance
Journal Article
Journal Article
Advanced Materials, ISSN 0935-9648, 11/2018, Volume 30, Issue 48, p. e1802227
The photochemical production of fuels using sunlight is an innovative way for meeting the quickly increasing energy demands. One of the largest challenges is... 
photofixation | solar-to-fuel conversion | plasmons | CO | reduction | photocatalysis | N
Journal Article
Journal Article
Advanced Science, ISSN 2198-3844, 12/2015, Volume 2, Issue 12, p. n/a
In solar energy harvesting, large parts of the solar spectrum do not contribute to the harvesting scheme. In article 1500218, L. Wondraczek and co‐workers... 
artificial photosynthesis | solar spectral conversion | solar‐to‐fuel | water splitting | photosynthesis
Journal Article
Advanced Energy Materials, ISSN 1614-6832, 01/2019, Volume 9, Issue 9
Conversion of CO2 to energy-rich chemicals using renewable energy is of much interest to close the anthropogenic carbon cycle. However, the current... 
photoelectrochemical | solar to fuel conversion | photochemical | flow cells
Journal Article
ADVANCED MATERIALS, ISSN 0935-9648, 11/2018, Volume 30, Issue 48
Journal Article
18.