# | Title | Journal | Year | Citations |
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1 | KOH activation of carbon-based materials for energy storage | Journal of Materials Chemistry | 2012 | 2,127 |
2 | Flexible metal–organic frameworks | Chemical Society Reviews | 2014 | 1,741 |
3 | Characterization of metal-organic frameworks by water adsorption | Microporous and Mesoporous Materials | 2009 | 938 |
4 | Understanding activity and selectivity of metal-nitrogen-doped carbon catalysts for electrochemical reduction of CO2 | Nature Communications | 2017 | 890 |
5 | Functional inorganic nanofillers for transparent polymers | Chemical Society Reviews | 2007 | 557 |
6 | A pressure-amplifying framework material with negative gas adsorption transitions | Nature | 2016 | 490 |
7 | Catalytic properties of MIL-101 | Chemical Communications | 2008 | 480 |
8 | Direct prediction of the desalination performance of porous carbon electrodes for capacitive deionization | Energy and Environmental Science | 2013 | 461 |
9 | Solution infiltration of palladium into MOF-5: synthesis, physisorption and catalytic properties | Journal of Materials Chemistry | 2007 | 450 |
10 | High-Rate Electrochemical Capacitors Based on Ordered Mesoporous Silicon Carbide-Derived Carbon | ACS Nano | 2010 | 447 |
11 | Aromatic porous-honeycomb electrodes for a sodium-organic energy storage device | Nature Communications | 2013 | 327 |
12 | Controlling Dendrite Growth in Solid-State Electrolytes | ACS Energy Letters | 2020 | 322 |
13 | A Mesoporous Metal–Organic Framework | Angewandte Chemie - International Edition | 2009 | 317 |
14 | ZnO Hard Templating for Synthesis of Hierarchical Porous Carbons with Tailored Porosity and High Performance in Lithium‐Sulfur Battery | Advanced Functional Materials | 2015 | 315 |
15 | New highly porous aluminium based metal-organic frameworks: Al(OH)(ndc) (ndc=2,6-naphthalene dicarboxylate) and Al(OH)(bpdc) (bpdc=4,4′-biphenyl dicarboxylate) | Microporous and Mesoporous Materials | 2009 | 298 |
16 | Sulfur‐Infiltrated Micro‐ and Mesoporous Silicon Carbide‐Derived Carbon Cathode for High‐Performance Lithium Sulfur Batteries | Advanced Materials | 2013 | 296 |
17 | Hierarchical Micro‐ and Mesoporous Carbide‐Derived Carbon as a High‐Performance Electrode Material in Supercapacitors | Small | 2011 | 283 |
18 | Tailoring porosity in carbon materials for supercapacitor applications | Materials Horizons | 2014 | 278 |
19 | Capture of Nerve Agents and Mustard Gas Analogues by Hydrophobic Robust MOF-5 Type Metal–Organic Frameworks | Journal of the American Chemical Society | 2011 | 270 |
20 | Highly Hydrophobic Isoreticular Porous Metal–Organic Frameworks for the Capture of Harmful Volatile Organic Compounds | Angewandte Chemie - International Edition | 2013 | 264 |
21 | Zr- and Hf-Based Metal–Organic Frameworks: Tracking Down the Polymorphism | Crystal Growth and Design | 2013 | 262 |
22 | Metal–organic framework (MOF) aerogels with high micro- and macroporosity | Chemical Communications | 2009 | 248 |
23 | High pressure methane adsorption in the metal-organic frameworks Cu3(btc)2, Zn2(bdc)2dabco, and Cr3F(H2O)2O(bdc)3 | Microporous and Mesoporous Materials | 2008 | 209 |
24 | Crystallographic insights into (CH3NH3)3(Bi2I9): a new lead-free hybrid organic–inorganic material as a potential absorber for photovoltaics | Chemical Communications | 2016 | 208 |
25 | Fungi-based porous carbons for CO2 adsorption and separation | Journal of Materials Chemistry | 2012 | 204 |
26 | Element–organic frameworks with high permanent porosity | Chemical Communications | 2008 | 197 |
27 | A highly porous metal–organic framework, constructed from a cuboctahedral super-molecular building block, with exceptionally high methane uptake | Chemical Communications | 2012 | 197 |
28 | Tailoring of network dimensionality and porosity adjustment in Zr- and Hf-based MOFs | CrystEngComm | 2013 | 196 |
29 | Highly porous nitrogen-doped polyimine-based carbons with adjustable microstructures for CO2 capture | Journal of Materials Chemistry A | 2013 | 189 |
30 | In Situ Formation of Protective Coatings on Sulfur Cathodes in Lithium Batteries with LiFSI‐Based Organic Electrolytes | Advanced Energy Materials | 2015 | 189 |
31 | Zr(iv) and Hf(iv) based metal–organic frameworks with reo-topology | Chemical Communications | 2012 | 187 |
32 | Stretchable and Semitransparent Conductive Hybrid Hydrogels for Flexible Supercapacitors | ACS Nano | 2014 | 186 |
33 | Electronic Devices Using Open Framework Materials | Chemical Reviews | 2020 | 185 |
34 | Improved Hydrogen Storage in the Metal-Organic Framework Cu3(BTC)2 | Advanced Engineering Materials | 2006 | 180 |
35 | High-defect hydrophilic carbon cuboids anchored with Co/CoO nanoparticles as highly efficient and ultra-stable lithium-ion battery anodes | Journal of Materials Chemistry A | 2016 | 179 |
36 | A new metal–organic framework with ultra-high surface area | Chemical Communications | 2014 | 178 |
37 | Carbide-derived carbon aerogels with tunable pore structure as versatile electrode material in high power supercapacitors | Carbon | 2017 | 171 |
38 | Application of a chiral metal–organic framework in enantioselective separation | Chemical Communications | 2011 | 159 |
39 | Promoting the sulfur redox kinetics by mixed organodiselenides in high-energy-density lithium–sulfur batteries | EScience | 2021 | 159 |
40 | Imine-Linked Polymer-Derived Nitrogen-Doped Microporous Carbons with Excellent CO2 Capture Properties | ACS Applied Materials & Interfaces | 2013 | 158 |
41 | High‐Surface‐Area Nanoporous Boron Carbon Nitrides for Hydrogen Storage | Advanced Functional Materials | 2010 | 153 |
42 | Preparation of palladium supported on MOF-5 and its use as hydrogenation catalyst | Catalysis Communications | 2008 | 149 |
43 | A Highly Porous Metal–Organic Framework with Open Nickel Sites | Angewandte Chemie - International Edition | 2010 | 149 |
44 | Proline Functionalized UiO-67 and UiO-68 Type Metal–Organic Frameworks Showing Reversed Diastereoselectivity in Aldol Addition Reactions | Chemistry of Materials | 2016 | 148 |
45 | Micro‐ and Mesoporous Carbide‐Derived Carbon–Selenium Cathodes for High‐Performance Lithium Selenium Batteries | Advanced Energy Materials | 2015 | 144 |
46 | A cubic ordered, mesoporous carbide-derived carbon for gas and energy storage applications | Carbon | 2010 | 140 |
47 | Chiral Metal‐Organic Frameworks and Their Application in Asymmetric Catalysis and Stereoselective Separation | Chemie-Ingenieur-Technik | 2011 | 139 |
48 | Structural flexibility and intrinsic dynamics in the M2(2,6-ndc)2(dabco) (M = Ni, Cu, Co, Zn) metal–organic frameworks | Journal of Materials Chemistry | 2012 | 139 |
49 | High capacity micro-mesoporous carbon–sulfur nanocomposite cathodes with enhanced cycling stability prepared by a solvent-free procedure | Journal of Materials Chemistry A | 2013 | 138 |
50 | Ultrahigh porosity in mesoporous MOFs: promises and limitations | Chemical Communications | 2014 | 138 |