2023
85. Effect of Steric Hindrance on the Interfacial Connection of MOF-on-MOF Architectures
84. Synthesis of Single-Crystalline Core-Shell Metal-Organic Frameworks
![toc_resize](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/toc_resize.jpg)
2022
82. Interface-Sensitized Chemiresistor: Integrated Conductive and Porous Metal-Organic Frameworks
80. Metal-Organic Frameworks: Special Collection 2020
79. Dynamic Variation of Responsive Metal-Organic Frameworks toward Specific Stimuli
![77_fixed_2](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/77_fixed_2.png)
2021
74. MOF-on-MOF Architectures: Applications in Separation, Catalysis, and Sensing
![210621_BK_DH_Review_TOC](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/210621_BK_DH_Review_TOC-284x300.png)
73. Mechanochemistry as a Reconstruction Tool of Decomposed Metal-Organic Frameworks
72. Non-stackable molecules assemble into porous crystals displaying concerted cavity-changing motions
71. Elucidation of Diffusivity of Hydrogen Isotopes in Flexible MOFs by Quasi‐Elastic Neutron Scattering
70. Hydrogen separation and purification with MOF-based materials
69. Synthesis of MOF-on-MOF architectures in the context of interfacial lattice matching
2020
64. Structural Evolution of ZIF-67-Derived Catalysts for Furfural Hydrogenation
63. Specific Isotope-Responsive Breathing Transition in Flexible Metal-Organic Frameworks
61. Recoverable and Recyclable Gas Hydrate Inhibitors based on Metal–Organic Frameworks
60. Pore Engineering of Metal-Organic Frameworks with Coordinating Functionalities
![58 TOC](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/58-TOC.png)
2019
57. Computer-aided Discovery of Connected Metal-Organic Frameworks
56. Coordinated Molecule-Modulated Magnetic Phase and Metamagnetism in Metal Organic Frameworks
![슬라이드1](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/슬라이드1-1024x494.png)
55. Tuning of the Flexibility in Metal-Organic Frameworks based on Pendant Arm Macrocycles
![57_TOC](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/57_TOC-1024x513.png)
53. Elucidation of Flexible Metal-Organic Frameworks: Research Progresses and Recent Developments
![53 TOC](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/53-TOC-1024x323.png)
![53 TOC image](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/53-TOC-image-286x300.png)
2018
50. Hierarchically Porous Adamantane-Shaped Carbon Nanoframes
![50_TOC cover](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/50_TOC-cover-1024x530.png)
![49](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/49.gif)
2017
47. Selective Hydrogen Isotope Separation via Breathing Transition in MIL-53(Al)
![47 TOC_re](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/47-TOC_re.png)
![46_1](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/46_1-1024x642.jpg)
45. Transformation of Metal-Organic Frameworks into Functional Nanostructured Materials: Experimental Approaches Based on Mechanistic Insight
![45r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/45r.gif)
44. Topology Conversions of Non-Interpenetrated Metal-Organic Frameworks to Doubly Interpenetrated Metal-Organic Frameworks
![44r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/44r.gif)
43. Mix-and-Match Assembly of Block Copolymer Blends in Solution
42. Facile Synthesis and Characterization of Nanostructured Transition Metal/Ceria Solid Solutions (TMxCe1–xO2−δ, TM = Mn, Ni, Co, or Fe) for CO Oxidation
![42r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/42r.gif)
41. Single-Crystal-to-Single-Crystal Transformation of a Coordination Polymer from 2D to 3D by [2 + 2] Photodimerization Assisted by a Coexisting Flexible Ligand
![41r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/41r.gif)
40. Direct Conversion of Coordination Compounds into Ni2P Nanoparticles Entrapped in 3D Mesoporous Graphene for an Efficient Hydrogen Evolution Reaction
![40r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/40r.gif)
39. Zn-MOFs Containing Flexible α,ω-Alkane (or alkene)-dicarboxylates with 1,2-bis(4- pyridyl)ethylene: Comparison with Zn-MOFs Containing 1,2-bis(4-pyridyl)ethane Ligands
![39r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/39r.gif)
2016
![38r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/38r.gif)
![37r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/37r.gif)
36. Effects of Porous Carbon Additives on the CO2 Absorption Performance of Lithium Orthosilicate
![36r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/36r.jpg)
35. Exploration of Gate-Opening and Breathing Phenomena in a Tailored Flexible Metal–Organic Framework
![35r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/35r.gif)
![34](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/34.jpg)
2015
33. Solvent-Induced Single-Crystal to Single-Crystal Transformation of a Zn4O-containing Doubly Interpenetrated Metal–Organic Framework with a pcu net
![33r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/33r.gif)
32. Thermal Conversion of a Tailored Metal–Organic Framework into Lithium Silicate with an Unusual Morphology for Efficient CO2 Capture
![32r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/32r.gif)
31. Simple Coordination Complex-Derived Three-Dimensional Mesoporous Graphene as an Efficient Bifunctional Oxygen Electrocatalyst
![31r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/31r.gif)
2014
![30](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/30.jpg)
29. Preparation of Co3O4 Electrode Materials with Different Microstructures via Pseudomorphic Conversion of Co-based Metal–Organic Frameworks
![29r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/29r.gif)
28. 4,4′-Biphenyldicarboxylate Sodium Coordination Compounds as Anodes for Na-ion Batteries
![28r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/28r.gif)
27. A Transformative Route to Nanoporous Manganese Oxides of Controlled Oxidation States with Identical Textural Properties
![27r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/27r.gif)
26. Multi-Core MgO NPs@C Core–Shell Nanospheres for Selective CO2 Capture under Mild Conditions
![26r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/26r.gif)
25. Using Hydrogen Activated by Microwave Plasma vs. Molecular Hydrogen for Hydrogen Storage in Tungsten Disulfide Inorganic Nanotubes
![Using Hydrogen Activated by Microwave Plasma vs](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/25r.jpg)
2013
24. Symmetric Negative Differential Resistance in a Molecular Nanosilver Chain
![24r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/24r.png)
23. Microfluidic Approach toward Continuous and Ultrafast Synthesis of Metal–Organic Framework Crystals and Hetero Structures in Confined Microdroplets
![23r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/23r.gif)
![22r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/22r.gif)
21. Effect of Sulphur Vacancy on Geometric and Electronic Structure of MoS2 Induced by Molecular Hydrogen Treatment at Room Temperature
![21r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/21r.gif)
![20r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/20r.gif)
![19r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/19r.gif)
18. Guest-Driven Structural Flexibility of 2D Coordination Polymers: Synthesis, Structural Characterizations, and Gas Sorption Properties
![18r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/18r.jpg)
17. Luminescent Li-Based Metal–Organic Framework Tailored for the Selective Detection of Explosive Nitroaromatic Compounds: Direct Observation of Interaction Sites
![17r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/17r.gif)
16. Fabrication of Metal Nanoparticles in Metal–Organic Frameworks
![16r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/16r.gif)
2012
15. Post-Synthetic Modifications of Framework Metal Ions in Isostructural Metal–Organic Frameworks: Core–Shell Heterostructures via Selective Transmetalations
![15r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/15r.gif)
![14r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/14r.jpg)
13. In situ- Generated Metal Oxide Catalyst During CO Oxidation Reaction Transformed from Redox-Active Metal-Organic Framework-supported Palladium Nanoparticles
![13](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/13.jpg)
12. Thermally Modulated Multilayered Graphene Oxide for Hydrogen Storage
![12r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/12r.gif)
2011
11. Organic-Skinned Inorganic Nanoparticles: Surface-Confined Polymerization of 6-(3-thienyl)hexanoic Acid Bound to Nanocrystalline TiO2
![11r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/11r-300x168.png)
10. Air-stable Magnesium Nanocomposites Provide Rapid and High-Capacity Hydrogen Storage without Using Heavy-Metal Catalysts
![10r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/10r-300x262.png)
~ 2010
![9r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/9r-300x76.jpg)
![8](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/8.jpg)
7. A Stair-Shaped Molecular Silver(0) Chain
![7r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/7r-268x300.png)
6. A Comparison of the H2 Sorption Capacities of Isostructural Metal–Organic Frameworks With and Without Accessible Metal Sites: [{Zn2(abtc)(dmf)2}3] and [{Cu2(abtc)(dmf)2}3] versus [{Cu2(abtc)}3]
![6r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/6r.gif)
5. Coordination Polymer Open Frameworks Constructed of Macrocyclic Complexes
4. A Redox-Active Two-Dimensional Coordination Polymer: Preparation of Silver and Gold Nanoparticles and Crystal Dynamics on Guest Removal
![4r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/4r-300x118.gif)
![3r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/3r-1024x232.gif)
![2](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/2.jpg)
![1r](http://faculty.unist.ac.kr/hoirimoon/wp-content/uploads/sites/323/2018/03/1r-300x142.png)