Li xiaoge
Date of Birth:1993-08-01
Gender:Female
Education Level:With Certificate of Graduation for Doctorate Study
Alma Mater:南京大学
Paper Publications
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Li xiaoge,赵军,周锦华,王钦超,韩杰.Deep sulfur doping induces the rapid electrochemical self-reconstruction of Ni-Fe hydroxide to drive water oxidation.GREEN CHEMISTRY,2023,25(24)10684-10692.
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Li xiaoge,刘聪,方志唐,徐林,陆春良,侯文华.Ultrafast Room-Temperature Synthesis of Self-Supported NiFe-Layered Double Hydroxide as Large-Current-Density Oxygen Evolution Electrocatalyst.SMALL,2022,18(2)
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Li xiaoge,刘聪,方志唐,徐林,陆春良,侯文华.Improving the hydrogen evolution performance of self-supported hierarchical NiFe layered double hydroxide via NH3-inducing at room temperature.JOURNAL OF MATERIALS CHEMISTRY A,2022,10(38)20626-20634.
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Li xiaoge,赵军,周锦华,王钦超,韩杰.Deep sulfur doping induces the rapid electrochemical self-reconstruction of Ni-Fe hydroxide to drive water oxidation.GREEN CHEMISTRY,2023,25(24)10684-10692.
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Li xiaoge,刘聪,方志唐,徐林,陆春良,侯文华.Ultrafast Room-Temperature Synthesis of Self-Supported NiFe-Layered Double Hydroxide as Large-Current-Density Oxygen Evolution Electrocatalyst.SMALL,2022,18(2)
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Li xiaoge,刘聪,方志唐,徐林,陆春良,侯文华.Improving the hydrogen evolution performance of self-supported hierarchical NiFe layered double hydroxide via NH3-inducing at room temperature.JOURNAL OF MATERIALS CHEMISTRY A,2022,10(38)20626-20634.
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Li xiaoge,倪璐,周锦华,徐林,陆春良,杨改秀,丁维平,侯文华.Encapsulation of Fe nanoparticles into an N-doped carbon nanotube/nanosheet integrated hierarchical architecture as an efficient and ultrastable electrocatalyst for the oxygen reduction reaction.NANOSCALE,2020,12(26)13987-13995.
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Improving the hydrogen evolution performance of self-supported hierarchical NiFe layered double hydroxide via NH3-inducing at room temperature.Journal of Materials Chemistry A,2022,10(38):20626-20634.
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Ultrafast Room-Temperature Synthesis of Self-Supported NiFe-Layered Double Hydroxide as Large-Current–Density Oxygen Evolution Electrocatalyst.Small,2022,2104354.
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Encapsulation of Fe nanoparticles into an N-doped carbon nanotube/nanosheet integrated hierarchical architecture as an efficient and ultrastable electrocatalyst for the oxygen reduction reaction.Nanoscale,2020,12(26):13987-13995.
