Parameters of the newly designed ZPC for the Chinese population used in test. by Jia Zhu (135506)

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Initial preparation state diagram of the specimen experiment. by Jia Zhu (135506)

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Lipidomic analysis of epidermis using LC-IMS-CID-MS reveals major changes in CKO// epidermis. by Kevin J. Mills (9270966)

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Metabolism of lipids and lipid proteins CKO vs K5Cre Reactome by Kevin J. Mills (9270966)

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Ceramide biosynthetic process CKO vs K5Cre GO: Biological Processes. by Kevin J. Mills (9270966)

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Conditional deletion of C/EBP in epidermis results in downregulation of transcripts and pathways associated with lipid biosynthesis in epidermis. by Kevin J. Mills (9270966)

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UHPLC-MS CKO vs K5Cre results. by Kevin J. Mills (9270966)

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Uncropped raw western blot images. by Kevin J. Mills (9270966)

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LC-IMS-CID-MS CKO vs K5Cre results. by Kevin J. Mills (9270966)

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Fatty acids, triacylglycerol and ketone body metabolism CKO vs K5Cre Reactome. by Kevin J. Mills (9270966)

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Phospholipid metabolism CKO vs K5Cre Reactome. by Kevin J. Mills (9270966)

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Cholesterol biosynthetic process CKO vs K5Cre GO: Biological Processes. by Kevin J. Mills (9270966)

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Targeted analysis of cholesterol and cholesterol esters in epidermis reveals changes in specific cholesterol esters in CKO epidermis. by Kevin J. Mills (9270966)

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Localization and conditional deletion of C/EBP in SKH1 mouse epidermis. by Kevin J. Mills (9270966)

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Heat map of the Pearson correlation coefficients between progress test scores across test administrations from 2017 to 2024. by Franco Romaní-Romaní (21989788)

Selection of crossing point. by Yanchun Li (248761)

“…Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”

Effect of the Surface Peak–Valley Features on Droplet Impact Dynamics under Leidenfrost Temperature by Yunlong Jiao (6672764)

“…Specifically, the Leidenfrost temperature on micropit surfaces increases with greater micropit area occupancy, while it decreases on micropillar surfaces under similar conditions, which is mainly attributed to the differential impact of area occupancy on droplet heat transfer efficiency. …”

Effect of the Surface Peak–Valley Features on Droplet Impact Dynamics under Leidenfrost Temperature by Yunlong Jiao (6672764)

“…Specifically, the Leidenfrost temperature on micropit surfaces increases with greater micropit area occupancy, while it decreases on micropillar surfaces under similar conditions, which is mainly attributed to the differential impact of area occupancy on droplet heat transfer efficiency. …”

Effect of the Surface Peak–Valley Features on Droplet Impact Dynamics under Leidenfrost Temperature by Yunlong Jiao (6672764)

“…Specifically, the Leidenfrost temperature on micropit surfaces increases with greater micropit area occupancy, while it decreases on micropillar surfaces under similar conditions, which is mainly attributed to the differential impact of area occupancy on droplet heat transfer efficiency. …”

Effect of the Surface Peak–Valley Features on Droplet Impact Dynamics under Leidenfrost Temperature by Yunlong Jiao (6672764)

“…Specifically, the Leidenfrost temperature on micropit surfaces increases with greater micropit area occupancy, while it decreases on micropillar surfaces under similar conditions, which is mainly attributed to the differential impact of area occupancy on droplet heat transfer efficiency. …”