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Wei-Fu Chen et al.
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Travis S. Grimes et al.
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Justin W. Hall et al.
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Jakob Kibsgaard et al.
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James R. McKone et al.
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Daniel Merki et al.
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Zhenhua Yang et al.
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Yanguang Li et al.
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Dong Chen et al.
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Low-Cost Hydrogen-Evolution Catalysts Based on Monolayer Platinum on Tungsten Monocarbide Substrates
Daniel V. Esposito et al.
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Junli Wang et al.
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S. Boyanov et al.
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Low-temperature solvothermal synthesis of phosphorus-rich transition-metal phosphides
Brian M. Barry et al.
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Thomas F. Jaramillo et al.
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Electrochemical reactivity and design of NiP2 negative electrodes for secondary Li-lon batteries
F Gillot et al.
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AP Grosvenor et al.
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Reversible lithium uptake by FeP2
DCC Silva et al.
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BE Conway et al.
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Electrochemical reaction of lithium with CoP3
R Alcántara et al.
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