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ChemSusChem, ISSN 1864-5631, 11/2019, Volume 12, Issue 22, pp. 5041 - 5050
For the first time, graphene‐supported N‐doped carbon (G@NC) with a high degree of N doping was synthesized by in situ self‐assembly of a glucaminium‐based... 
self-assembly | ionic liquids | electrochemistry | hydrothermal synthesis | graphene | Catalysts | Graphene | Doping | Ionic liquids | Ions | Catalytic activity | Chemical evolution | Charge transfer | Nitrogen | Carbon | Assembly
Journal Article
数学大世界:中旬, ISSN 1009-5608, 2017, Issue 8, pp. 34 - 34
Journal Article
Colloids and Surfaces A: Physicochemical and Engineering Aspects, ISSN 0927-7757, 12/2013, Volume 439, pp. 69 - 83
Journal Article
Solar Energy Materials and Solar Cells, ISSN 0927-0248, 04/2020, Volume 207, p. 110349
Journal Article
Nanoscale, ISSN 2040-3364, 01/2019, Volume 11, Issue 3, pp. 1111 - 1122
Photoelectrochemical (PEC) water splitting represents a promising strategy to convert solar energy into chemical energy in the form of hydrogen, but its... 
Journal Article
ACS Applied Materials & Interfaces, ISSN 1944-8244, 03/2016, Volume 8, Issue 9, pp. 6082 - 6092
Phototoelectrochemical (PEC) water splitting represents a highly promising strategy to convert solar energy to chemical energy in the form of hydrogen, but its... 
Research | self-assembly | nanowire array | TiO | photoelectrochemical water splitting | polyelectrolyte | coreshell structure | THIN-FILMS | TiO2 nanowire array | PERFORMANCE | MATERIALS SCIENCE, MULTIDISCIPLINARY | NANOSCIENCE & NANOTECHNOLOGY | PHOTOANODES | NANORODS | NANOSTRUCTURES | Cu2O | NANOPARTICLES | GROWTH | LAYER | core-shell structure | TIO2 NANOTUBE ARRAYS
Journal Article
12. Full Text In situ growth of α-Fe2O3@Co3O4 core-shell wormlike nanoarrays for a highly efficient photoelectrochemical water oxidation reactionElectronic supplementary information (ESI) available: Calculation of photoconversion efficiency, flatband potential and donor density, Debye length, and depletion layer width, LSV collected from α-Fe2O3 synthesized at different pH values under light illumination, photograph of the α-Fe2O3 nanostructured array synthesized at pH 1.7 and annealed at 800 °C, LSV collected from α-Fe2O3 nanostructured arrays synthesized at pH 1.7 and annealed at 700 °C and 730 °C, LSV collected from α-Fe2O3 nanostructured arrays synthesized at pH 1.7, annealed at 550 °C and at 730 °C for different times, EDX spectrum of WN-α-Fe2O3@Co3O4, high-magnification FESEM image of WN-α-Fe2O3 before and after in situ growth of Co3O4, FESEM images of WN-α-Fe2O3 after growth of Co3O4 at reactant concentrations 1.2 times the original ones, XRD pattern of the Co3O4 precursor grown on WN-α-Fe2O3, enlarged LSV collected from pristine WN-α-Fe2O3 and WN-α-Fe2O3@Co3O4 in 1 M KOH aqueous solution in the dark, PEC performance of representative Fe2O3-based photoanodes for water splitting, LSV collected from WN-α-Fe2O3 before and after annealing in Ar and from WN-α-Fe2O3@Co3O4 annealed in air and in Ar in 1 M KOH aqueous solution under light illumination, LSV collected from WN-α-Fe2O3@Co3O4 in 1 M KOH aqueous solution under chopped light illumination, photocurrent retention versus time curves of pristine WN-α-Fe2O3 and WN-Fe2O3@Co3O4 under light illumination at 1 V vs. RHE, LSV collected from WN-α-Fe2O3@Co3O4 synthesized with different reactant concentrations in 1 M KOH aqueous solution under light illumination. See DOI: 10.1039/c8nr07041e
ISSN 2040-3364, 1/2019, Volume 11, Issue 3, pp. 1111 - 1122
Photoelectrochemical (PEC) water splitting represents a promising strategy to convert solar energy into chemical energy in the form of hydrogen, but its... 
Journal Article
Nanoscale, ISSN 2040-3364, 01/2019, Volume 11, Issue 3, pp. 1111 - 1122
Photoelectrochemical (PEC) water splitting represents a promising strategy to convert solar energy into chemical energy in the form of hydrogen, but its... 
Journal Article
14. In situ growth of α-Fe2O3@Co3O4 core–shell wormlike nanoarrays for a highly efficient photoelectrochemical water oxidation reaction (Electronic supplementary information (ESI) available: Calculation of photoconversion efficiency, flatband potential and donor density, Debye length, and depletion layer width, LSV collected from α-Fe2O3 synthesized at different pH values under light illumination, photograph of the α-Fe2O3 nanostructured array synthesized at pH 1.7 and annealed at 800 °C, LSV collected from α-Fe2O3 nanostructured arrays synthesized at pH 1.7 and annealed at 700 °C and 730 °C, LSV collected from α-Fe2O3 nanostructured arrays synthesized at pH 1.7, annealed at 550 °C and at 730 °C for different times, EDX spectrum of WN-α-Fe2O3@Co3O4, high-magnification FESEM image of WN-α-Fe2O3 before and after in situ growth of Co3O4, FESEM images of WN-α-Fe2O3 after growth of Co3O4 at reactant concentrations 1.2 times the original ones, XRD pattern of the Co3O4 precursor grown on WN-α-Fe2O3, enlarged LSV collected from pristine WN-α-Fe2O3 and WN-α-Fe2O3@Co3O4 in 1 M KOH aqueous solution in the dark, PEC performance of representative Fe2O3-based photoanodes for water splitting, LSV collected from WN-α-Fe2O3 before and after annealing in Ar and from WN-α-Fe2O3@Co3O4 annealed in air and in Ar in 1 M KOH aqueous solution under light illumination, LSV collected from WN-α-Fe2O3@Co3O4 in 1 M KOH aqueous solution under chopped light illumination, photocurrent retention versus time curves of pristine WN-α-Fe2O3 and WN-Fe2O3@Co3O4 under light illumination at 1 V vs. RHE, LSV collected from WN-α-Fe2O3@Co3O4 synthesized with different reactant concentrations in 1 M KOH aqueous solution under light illumination. See DOI: 10.1039/c8nr07041e)
Nanoscale, ISSN 2040-3364, 01/2019, Volume 11, Issue 3, pp. 1111 - 1122
Photoelectrochemical (PEC) water splitting represents a promising strategy to convert solar energy into chemical energy in the form of hydrogen, but its... 
Nucleation | Cobalt oxides | Charge transport | Density | Photoelectric effect | Oxidation resistance | Quantum efficiency | Synthesis | Aqueous solutions | Light | Illumination | Oxidation | Charge transfer | Photoelectric emission | Hematite | Annealing | Water splitting | Nanostructure | Chemical energy | Organic chemistry | Depletion | Solar energy conversion | Debye length | Arrays | Computing time
Journal Article
ACS Applied Materials & Interfaces, ISSN 1944-8244, 08/2016, Volume 8, Issue 32, pp. 20720 - 20729
Journal Article
by 袁婧
教育观察, ISSN 2095-3712, 2017, Volume 6, Issue 18, pp. 79 - 80
Journal Article
西部素质教育, ISSN 2095-6401, 2017, Volume 3, Issue 16, pp. 162 - 162
文章首先研究了微课在初中历史教学中的意义,其次指出了其中存在的问题,最后从实际教学出发,提出了解决微课教学在历史教学中存在问题的方法,即根据情况合理设置微课时长、丰富微课教学内容、强化教师对课程的把控力、根据学生兴趣制作课件、巧用微课突破教学难点。 
教育改革 | 微课 | 初中历史
Journal Article
科学咨询, ISSN 1671-4822, 2017, Issue 26, pp. 52 - 53
微课”是指按照新课程标准及教学实践要求,以视频为主要载体,记录教师在课堂内外教育教学过程中围绕某个知识点(重点难点疑点)或教学环节而开展的精彩教与学活动全过程.又由于它不受时间、空间的限制,所以它可以在网络上在线课前预习,课后辅导. 
小学信息技术 | 微课
Journal Article
产业与科技论坛, ISSN 1673-5641, 2017, Volume 16, Issue 4, pp. 157 - 158
本文分析了当前高职金融教学中的不足及微课在高职金融教学中的作用,并提出了微课在高职金融教学中的应用策略,以为微课在高职金融教学中的应用提供科学依据。 
金融教学 | 微课 | 高职教育
Journal Article