465 results on '"Lee, Jong-Heun"'
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2. One-dimensional In2O3 nanofibers patterned onto functionalized catalytic electrodes: A novel approach for selective xylene detection
3. List of contributors
4. Technological realization of semiconducting metal oxide–based gas sensors
5. Data from Alterations in Gemin5 Expression Contribute to Alternative mRNA Splicing Patterns and Tumor Cell Motility
6. Supplementary Tables 1-4, Figure Legends 1-2 from Nm23-H1 Suppresses Tumor Cell Motility by Down-regulating the Lysophosphatidic Acid Receptor EDG2
7. Supplementary Table 2 from Alterations in Gemin5 Expression Contribute to Alternative mRNA Splicing Patterns and Tumor Cell Motility
8. Supplementary Table 3.3 from Alterations in Gemin5 Expression Contribute to Alternative mRNA Splicing Patterns and Tumor Cell Motility
9. Data from Nm23-H1 Suppresses Tumor Cell Motility by Down-regulating the Lysophosphatidic Acid Receptor EDG2
10. Supplementary Figure 1 from Nm23-H1 Suppresses Tumor Cell Motility by Down-regulating the Lysophosphatidic Acid Receptor EDG2
11. Supplementary Figure 2 from Alterations in Gemin5 Expression Contribute to Alternative mRNA Splicing Patterns and Tumor Cell Motility
12. Supplementary Table 2 from Alterations in Gemin5 Expression Contribute to Alternative mRNA Splicing Patterns and Tumor Cell Motility
13. Supplementary Tables 1-4, Figure Legends 1-2 from Nm23-H1 Suppresses Tumor Cell Motility by Down-regulating the Lysophosphatidic Acid Receptor EDG2
14. Supplementary Table 3.2 from Alterations in Gemin5 Expression Contribute to Alternative mRNA Splicing Patterns and Tumor Cell Motility
15. Supplementary Figure 2 from Alterations in Gemin5 Expression Contribute to Alternative mRNA Splicing Patterns and Tumor Cell Motility
16. Supplementary Figure 1 from Nm23-H1 Suppresses Tumor Cell Motility by Down-regulating the Lysophosphatidic Acid Receptor EDG2
17. Supplementary Table 3.3 from Alterations in Gemin5 Expression Contribute to Alternative mRNA Splicing Patterns and Tumor Cell Motility
18. Supplementary Figure 2 from Nm23-H1 Suppresses Tumor Cell Motility by Down-regulating the Lysophosphatidic Acid Receptor EDG2
19. Supplementary Figure 2 from Nm23-H1 Suppresses Tumor Cell Motility by Down-regulating the Lysophosphatidic Acid Receptor EDG2
20. Data from Nm23-H1 Suppresses Tumor Cell Motility by Down-regulating the Lysophosphatidic Acid Receptor EDG2
21. Supplementary Table 3.1 from Alterations in Gemin5 Expression Contribute to Alternative mRNA Splicing Patterns and Tumor Cell Motility
22. Supplementary Table 1 from Alterations in Gemin5 Expression Contribute to Alternative mRNA Splicing Patterns and Tumor Cell Motility
23. Supplementary Table 3.4 from Alterations in Gemin5 Expression Contribute to Alternative mRNA Splicing Patterns and Tumor Cell Motility
24. Supplementary Figure 1 from Alterations in Gemin5 Expression Contribute to Alternative mRNA Splicing Patterns and Tumor Cell Motility
25. MOF‐Based Chemiresistive Gas Sensors: Toward New Functionalities
26. Highly Sensitive and Selective Real-Time Breath Isoprene Detection using the Gas Reforming Reaction of MOF-Derived Nanoreactors
27. Exclusive detection of volatile aromatic hydrocarbons using bilayer oxide chemiresistors with catalytic overlayers
28. Exclusive detection of ethylene using metal oxide chemiresistors with a Pd–V2O5–TiO2 yolk–shell catalytic overlayer via heterogeneous Wacker oxidation
29. Hierarchically porous PdO-functionalized SnO2 nano-architectures for exclusively selective, sensitive, and fast detection of exhaled hydrogen
30. Machine learning-based discrimination of indoor pollutants using an oxide gas sensor array: High endurance against ambient humidity and temperature
31. Erratum to: Heterojunction between bimetallic metal-organic framework and TiO2: Band-structure engineering for effective photoelectrochemical water splitting
32. Heterojunction between bimetallic metal-organic framework and TiO2: Band-structure engineering for effective photoelectrochemical water splitting
33. Highly Selective and Sensitive Detection of Breath Isoprene by Tailored Gas Reforming: A Synergistic Combination of Macroporous WO3 Spheres and Au Catalysts
34. Designing oxide chemiresistors for detecting volatile aromatic compounds: recent progresses and future perspectives
35. Facile and rapid fabrication of porous CuBr films by solution oxidation and their application for the exclusive detection of NH3 at room temperature
36. Type-II BiVO4/Ni3(hexahydroxytriphenylene)2 heterojunction photoanodes for effective photoelectrochemical reaction
37. Selective dual detection of hydrogen sulfide and methyl mercaptan using CuO/CuFe2O4 nanopattern chemiresistors
38. Heterostructure between WO3 and metal organic framework-derived BiVO4 nanoleaves for enhanced photoelectrochemical performances
39. Naturally diffused sintering aid for highly conductive bilayer electrolytes in solid oxide cells
40. Roles of Polymerized Anionic Clusters Stimulating for Hydrolysis Deterioration in Li7P3S11
41. Exclusive and ultrasensitive detection of formaldehyde at room temperature using a flexible and monolithic chemiresistive sensor
42. Highly sensitive xylene sensors using Fe2O3-ZnFe2O4 composite spheres
43. Highly selective, sensitive, and rapidly responding acetone sensor using ferroelectric ε-WO3 spheres doped with Nb for monitoring ketogenic diet efficiency
44. Hybrid Photocatalysts: MOF‐Based Hybrids for Solar Fuel Production (Adv. Energy Mater. 27/2021)
45. Visible-Light-Activated Type II Heterojunction in Cu3(hexahydroxytriphenylene)2/Fe2O3 Hybrids for Reversible NO2 Sensing: Critical Role of π–π* Transition
46. (Plenary) Rational Design of Oxide Chemiresistors for Next-Generation Gas Sensors and Artificial Olfaction
47. (IMCS Third Place Best Paper Award) Highly Selective and Sensitive Trimethylamine Gas Sensors Using Patterned Metal Oxide Nanofibers Prepared By Near-Field Electrospinning
48. Tailoring of Gas Sensing Characteristics Using Bilayer Sensor with Oxide Semiconductor Sensing Layer and Nanoscale Au Catalytic Overlayer
49. Au@SnO2 and SnO2@Au Hollow Spheres for Gas Sensor Applications: Selectivity Control
50. Transparent Gas Sensors: A Transparent Nanopatterned Chemiresistor: Visible‐Light Plasmonic Sensor for Trace‐Level NO 2 Detection at Room Temperature (Small 20/2021)
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