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1
Table_1_Metabolic profiling, in-situ spatial distribution, ..:
Qingling Liu (2003254) ; Yuan Huang (79836) ; Chu Linghu (14393811)..
https://figshare.com/articles/dataset/Table_1_Metabolic_profiling_in-situ_spatial_distribution_and_biosynthetic_pathway_of_functional_metabolites_in_Dendrobium_nobile_stem_revealed_by_combining_UPLC-QTOF-MS_with_MALDI-TOF-MSI_docx/21877233. , 2023
https://figshare.com/articles/dataset/Table_1_Metabolic_profiling_in-situ_spatial_distribution_and_biosynthetic_pathway_of_functional_metabolites_in_Dendrobium_nobile_stem_revealed_by_combining_UPLC-QTOF-MS_with_MALDI-TOF-MSI_docx/21877233. , 2023
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2
Boosting the Catalytic Performance of Volatile Organic Comp..:
Qian Zhao (217607) ; Yan Zhang (8098) ; Qingling Liu (2003254)...
https://figshare.com/articles/journal_contribution/Boosting_the_Catalytic_Performance_of_Volatile_Organic_Compound_Oxidation_Over_Platelike_MnO_sub_2_sub_CoAlO_Catalyst_by_Weakening_the_Co_O_Bond_and_Accelerating_Oxygen_Activation/21859860. , 2023
https://figshare.com/articles/journal_contribution/Boosting_the_Catalytic_Performance_of_Volatile_Organic_Compound_Oxidation_Over_Platelike_MnO_sub_2_sub_CoAlO_Catalyst_by_Weakening_the_Co_O_Bond_and_Accelerating_Oxygen_Activation/21859860. , 2023
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3
Elimination of NH 3 by Interfacial Charge Transfer over the..:
Yan Zhang (8098) ; Min Zhang (111999) ; Yuchao Zang (11669651)...
https://figshare.com/articles/journal_contribution/Elimination_of_NH_sub_3_sub_by_Interfacial_Charge_Transfer_over_the_Ag_CeSnO_sub_i_x_i_sub_Tandem_Catalyst/21857028. , 2023
https://figshare.com/articles/journal_contribution/Elimination_of_NH_sub_3_sub_by_Interfacial_Charge_Transfer_over_the_Ag_CeSnO_sub_i_x_i_sub_Tandem_Catalyst/21857028. , 2023
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4
Image_2_Construction and Validation of a Prognostic Risk Mo..:
Cheng Yan (406565) ; Qingling Liu (2003254) ; Ruoling Jia (12043931)
https://figshare.com/articles/figure/Image_2_Construction_and_Validation_of_a_Prognostic_Risk_Model_for_Triple-Negative_Breast_Cancer_Based_on_Autophagy-Related_Genes_jpg/19120073. , 2022
https://figshare.com/articles/figure/Image_2_Construction_and_Validation_of_a_Prognostic_Risk_Model_for_Triple-Negative_Breast_Cancer_Based_on_Autophagy-Related_Genes_jpg/19120073. , 2022
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5
Image_1_Construction and Validation of a Prognostic Risk Mo..:
Cheng Yan (406565) ; Qingling Liu (2003254) ; Ruoling Jia (12043931)
https://figshare.com/articles/figure/Image_1_Construction_and_Validation_of_a_Prognostic_Risk_Model_for_Triple-Negative_Breast_Cancer_Based_on_Autophagy-Related_Genes_jpg/19120067. , 2022
https://figshare.com/articles/figure/Image_1_Construction_and_Validation_of_a_Prognostic_Risk_Model_for_Triple-Negative_Breast_Cancer_Based_on_Autophagy-Related_Genes_jpg/19120067. , 2022
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6
Image_3_Construction and Validation of a Prognostic Risk Mo..:
Cheng Yan (406565) ; Qingling Liu (2003254) ; Ruoling Jia (12043931)
https://figshare.com/articles/figure/Image_3_Construction_and_Validation_of_a_Prognostic_Risk_Model_for_Triple-Negative_Breast_Cancer_Based_on_Autophagy-Related_Genes_jpg/19120076. , 2022
https://figshare.com/articles/figure/Image_3_Construction_and_Validation_of_a_Prognostic_Risk_Model_for_Triple-Negative_Breast_Cancer_Based_on_Autophagy-Related_Genes_jpg/19120076. , 2022
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7
Highly Selective Hydrodeoxygenation of Lignin to Naphthenes..:
Zhichao Jia (7479335) ; Na Ji (2479390) ; Xinyong Diao (9119387)...
https://figshare.com/articles/journal_contribution/Highly_Selective_Hydrodeoxygenation_of_Lignin_to_Naphthenes_over_Three-Dimensional_Flower-like_Ni_sub_2_sub_P_Derived_from_Hydrotalcite/18017040. , 2022
https://figshare.com/articles/journal_contribution/Highly_Selective_Hydrodeoxygenation_of_Lignin_to_Naphthenes_over_Three-Dimensional_Flower-like_Ni_sub_2_sub_P_Derived_from_Hydrotalcite/18017040. , 2022
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8
Image_5_Construction and Validation of a Prognostic Risk Mo..:
Cheng Yan (406565) ; Qingling Liu (2003254) ; Ruoling Jia (12043931)
https://figshare.com/articles/figure/Image_5_Construction_and_Validation_of_a_Prognostic_Risk_Model_for_Triple-Negative_Breast_Cancer_Based_on_Autophagy-Related_Genes_jpg/19120082. , 2022
https://figshare.com/articles/figure/Image_5_Construction_and_Validation_of_a_Prognostic_Risk_Model_for_Triple-Negative_Breast_Cancer_Based_on_Autophagy-Related_Genes_jpg/19120082. , 2022
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9
Image_4_Construction and Validation of a Prognostic Risk Mo..:
Cheng Yan (406565) ; Qingling Liu (2003254) ; Ruoling Jia (12043931)
https://figshare.com/articles/figure/Image_4_Construction_and_Validation_of_a_Prognostic_Risk_Model_for_Triple-Negative_Breast_Cancer_Based_on_Autophagy-Related_Genes_jpg/19120079. , 2022
https://figshare.com/articles/figure/Image_4_Construction_and_Validation_of_a_Prognostic_Risk_Model_for_Triple-Negative_Breast_Cancer_Based_on_Autophagy-Related_Genes_jpg/19120079. , 2022
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10
Image_6_Construction and Validation of a Prognostic Risk Mo..:
Cheng Yan (406565) ; Qingling Liu (2003254) ; Ruoling Jia (12043931)
https://figshare.com/articles/figure/Image_6_Construction_and_Validation_of_a_Prognostic_Risk_Model_for_Triple-Negative_Breast_Cancer_Based_on_Autophagy-Related_Genes_jpg/19120085. , 2022
https://figshare.com/articles/figure/Image_6_Construction_and_Validation_of_a_Prognostic_Risk_Model_for_Triple-Negative_Breast_Cancer_Based_on_Autophagy-Related_Genes_jpg/19120085. , 2022
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11
Interface-Enhanced Oxygen Vacancies of CoCuO x Catalysts In..:
Yanfei Zheng (8958122) ; Yun Su (289202) ; Caihong Pang (10130664)...
https://figshare.com/articles/journal_contribution/Interface-Enhanced_Oxygen_Vacancies_of_CoCuO_sub_i_x_i_sub_Catalysts_In_Situ_Grown_on_Monolithic_Cu_Foam_for_VOC_Catalytic_Oxidation/17121019. , 2021
https://figshare.com/articles/journal_contribution/Interface-Enhanced_Oxygen_Vacancies_of_CoCuO_sub_i_x_i_sub_Catalysts_In_Situ_Grown_on_Monolithic_Cu_Foam_for_VOC_Catalytic_Oxidation/17121019. , 2021
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12
LINC01232 serves as a novel biomarker and promotes tumour p..:
Qingling Liu (2003254) ; Chengbin Lei (10092600)
https://figshare.com/articles/dataset/_i_LINC01232_i_serves_as_a_novel_biomarker_and_promotes_tumour_progression_by_sponging_miR-204-5p_and_upregulating_RAB22A_in_clear_cell_renal_cell_carcinoma/17026021. , 2021
https://figshare.com/articles/dataset/_i_LINC01232_i_serves_as_a_novel_biomarker_and_promotes_tumour_progression_by_sponging_miR-204-5p_and_upregulating_RAB22A_in_clear_cell_renal_cell_carcinoma/17026021. , 2021
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13
Confined Growth of Cu-Doped CeO 2 Nanostructures in Boron-R..:
Qingling Liu (2003254) ; Xueqian Wu (3171489) ; Rui Han (503412)...
https://figshare.com/articles/journal_contribution/Confined_Growth_of_Cu-Doped_CeO_sub_2_sub_Nanostructures_in_Boron-Rich_Carbon_Frameworks_for_Acetone_Oxidation/16628428. , 2021
https://figshare.com/articles/journal_contribution/Confined_Growth_of_Cu-Doped_CeO_sub_2_sub_Nanostructures_in_Boron-Rich_Carbon_Frameworks_for_Acetone_Oxidation/16628428. , 2021
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14
Defective Ultrafine MnO x Nanoparticles Confined within a C..:
Yanfei Zheng (8958122) ; Qingling Liu (2003254) ; Cangpeng Shan (8958125)...
https://figshare.com/articles/journal_contribution/Defective_Ultrafine_MnO_sub_i_x_i_sub_Nanoparticles_Confined_within_a_Carbon_Matrix_for_Low-Temperature_Oxidation_of_Volatile_Organic_Compounds/14262012. , 2021
https://figshare.com/articles/journal_contribution/Defective_Ultrafine_MnO_sub_i_x_i_sub_Nanoparticles_Confined_within_a_Carbon_Matrix_for_Low-Temperature_Oxidation_of_Volatile_Organic_Compounds/14262012. , 2021
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15
Promotion of A‑Site Ag-Doped Perovskites for the Catalytic ..:
Lijun He (4040003) ; Yan Zhang (8098) ; Yuchao Zang (11669651)...
https://figshare.com/articles/journal_contribution/Promotion_of_A_Site_Ag-Doped_Perovskites_for_the_Catalytic_Oxidation_of_Soot_Synergistic_Catalytic_Effect_of_Dual_Active_Sites/16967678. , 1753
https://figshare.com/articles/journal_contribution/Promotion_of_A_Site_Ag-Doped_Perovskites_for_the_Catalytic_Oxidation_of_Soot_Synergistic_Catalytic_Effect_of_Dual_Active_Sites/16967678. , 1753
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