2,494 results on '"Xiao Song"'
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2. Policymakers' Uncertainty
3. Practical copula-based FORM for efficient slope reliability analysis involving correlated non-normal variables
4. Copper Difluorocarbene Enables Catalytic Difluoromethylation
5. Pulsed Vacuum Drying (PVD) of Hawthorn (Crataegus spp.) Slices: Effects on Drying Characteristics and Physicochemical Quality
6. Assessing the association between a sedentary lifestyle and prevalence of primary osteoporosis: a community-based cross-sectional study among Chinese population
7. Prediction of 19F NMR chemical shift by machine learning
8. Correlations of falling film hydrodynamics and heat transfer on horizontal tubes: A review
9. Radical-Mediated α-tert-Alkylation of Aldehydes by Consecutive 1,4- and 1,3-(Benzo)thiazolyl Migrations
10. Boron nitride modified superhydrophobic anti‐icing coating for electrical equipment protection
11. Interpretable machine learning for predicting the response duration to Sintilimab plus chemotherapy in patients with advanced gastric or gastroesophageal junction cancer
12. Cryogenic Narrowband Green Emission in Blue-Light Excited Pb-Free Double Perovskite Cs2Ag0.6Na0.4In0.8Bi0.2Cl6@KSCN via Surface Reconstruction-Induced Energy Level Modification
13. C(sp3)-F Bond Activation by Lewis Base-Boryl Radicals via Concerted Electron-Fluoride Transfer
14. B(C6F5)3-Catalyzed C(sp3)–H Alkylation of Tertiary Amines with Electron-Deficient Olefins: Determinants of Site Selectivity
15. Author Correction: Meiotic protein SYCP2 confers resistance to DNA-damaging agents through R-loop-mediated DNA repair
16. Adsorption and sensing characteristics of insulating gas C4F7N on 3d late transition metal‐phthalocyanine: Theoretical and experimental study
17. Carbene-Assisted Arene Ring-Opening
18. Overexpressed KCNK1 regulates potassium channels affecting molecular mechanisms and biological pathways in bladder cancer
19. A Geometric Theory for Binary Classification of Finite Datasets by DNNs with Relu Activations
20. Experimental and numerical investigation of the impacts of rotor tip-rake on excitation forces of pump-jet propulsors
21. Elucidating the Key Factors in Hydroamination and Defluoroamination Competitions: A DFT Analysis of Reaction between α‐(Trifluoromethyl)styrene and 2‐Pyridones
22. Nanoengineered Red Blood Cells Loaded with TMPRSS2 and Cathepsin L Inhibitors Block SARS‐CoV‐2 Pseudovirus Entry into Lung ACE2+ Cells (Adv. Mater. 15/2024)
23. Efficient estimation of bond dissociation energies of organic compounds
24. Constraints on the annihilation of heavy dark matter in dwarf spheroidal galaxies with gamma-ray observations
25. Counteranion-Controlled Chemodivergent Transfer-Hydrothiolation/Carbothiolation Utilizing Thioethers as Bifunctional Reagents
26. Learning Topological Horseshoe via Deep Neural Networks
27. The landscape of immune checkpoint-related long non-coding RNAs core regulatory circuitry reveals implications for immunoregulation and immunotherapy responses
28. Analysis and suppression of operational overvoltage and inrush current for high‐speed trains by automatic phase‐switching technique
29. Positive effect of microvascular proliferation on functional recovery in experimental cervical spondylotic myelopathy
30. Table S2 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
31. Figure S2 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
32. Table S2 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
33. Figure S1 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
34. Figure S8 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
35. Figure S5 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
36. Data from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
37. Figure S1 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
38. Figure S2 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
39. Table S1 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
40. Figure S3 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
41. Figure S5 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
42. Figure S7 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
43. Figure S4 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
44. Table S3 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
45. Table S1 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
46. Figure S3 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
47. Data from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
48. Table S3 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
49. Figure S7 from Intragenic Rearrangement Burden Associates with Immune Cell Infiltration and Response to Immune Checkpoint Blockade in Cancer
50. Linear-in-Temperature Resistivity and Planckian Dissipation Arise in a Stochastic Quantization Model of Cooper Pairs
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