# | Title | Journal | Year | Citations |
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|
1 | Solar Water Splitting: Progress Using Hematite (α‐Fe2O3) Photoelectrodes | ChemSusChem | 2011 | 2,386 |
2 | Adsorbent Materials for Carbon Dioxide Capture from Large Anthropogenic Point Sources | ChemSusChem | 2009 | 2,248 |
3 | Furfural—A Promising Platform for Lignocellulosic Biofuels | ChemSusChem | 2012 | 1,158 |
4 | The Challenge of Electrochemical Ammonia Synthesis: A New Perspective on the Role of Nitrogen Scaling Relations | ChemSusChem | 2015 | 1,086 |
5 | Photochemical Conversion of Solar Energy | ChemSusChem | 2008 | 1,047 |
6 | The Hydrogen Issue | ChemSusChem | 2011 | 819 |
7 | Lignin as Renewable Raw Material | ChemSusChem | 2010 | 813 |
8 | Recent Advances in CO2 Capture and Utilization | ChemSusChem | 2008 | 746 |
9 | Sustainable Preparation of Supported Metal Nanoparticles and Their Applications in Catalysis | ChemSusChem | 2009 | 718 |
10 | Safer Electrolytes for Lithium‐Ion Batteries: State of the Art and Perspectives | ChemSusChem | 2015 | 677 |
11 | Chemical Technologies for Exploiting and Recycling Carbon Dioxideinto the Value Chain | ChemSusChem | 2011 | 648 |
12 | An Aqueous Zinc‐Ion Battery Based on Copper Hexacyanoferrate | ChemSusChem | 2015 | 636 |
13 | Acid Hydrolysis of Cellulose as the Entry Point into Biorefinery Schemes | ChemSusChem | 2009 | 619 |
14 | Nanostructured Carbon and Carbon Nanocomposites for Electrochemical Energy Storage Applications | ChemSusChem | 2010 | 616 |
15 | Nitrogen‐Doped Porous Carbon Nanosheets as Low‐Cost, High‐Performance Anode Material for Sodium‐Ion Batteries | ChemSusChem | 2013 | 604 |
16 | From Biomass to a Renewable LiXC6O6 Organic Electrode for Sustainable Li‐Ion Batteries | ChemSusChem | 2008 | 595 |
17 | Alkaline Stability of Quaternary Ammonium Cations for Alkaline Fuel Cell Membranes and Ionic Liquids | ChemSusChem | 2015 | 589 |
18 | Can Metal–Organic Framework Materials Play a Useful Role in Large‐Scale Carbon Dioxide Separations? | ChemSusChem | 2010 | 570 |
19 | Production and Application of Lignosulfonates and Sulfonated Lignin | ChemSusChem | 2017 | 555 |
20 | Metal‐Free Heterogeneous Catalysis for Sustainable Chemistry | ChemSusChem | 2010 | 549 |
21 | Coming of Age: Sustainable Iron‐Catalyzed Cross‐Coupling Reactions | ChemSusChem | 2009 | 544 |
22 | 2‐Methyltetrahydrofuran (2‐MeTHF): A Biomass‐Derived Solvent with Broad Application in Organic Chemistry | ChemSusChem | 2012 | 544 |
23 | Design Criteria, Operating Conditions, and Nickel–Iron Hydroxide Catalyst Materials for Selective Seawater Electrolysis | ChemSusChem | 2016 | 542 |
24 | Novel Process Windows for Enabling, Accelerating, and Uplifting Flow Chemistry | ChemSusChem | 2013 | 541 |
25 | Levulinic Acid Biorefineries: New Challenges for Efficient Utilization of Biomass | ChemSusChem | 2016 | 537 |
26 | Carbon Dioxide Recycling: Emerging Large‐Scale Technologies with Industrial Potential | ChemSusChem | 2011 | 535 |
27 | A Gross‐Margin Model for Defining Technoeconomic Benchmarks in the Electroreduction of CO2 | ChemSusChem | 2016 | 532 |
28 | Water Splitting on Semiconductor Catalysts under Visible‐Light Irradiation | ChemSusChem | 2009 | 517 |
29 | Formation, Molecular Structure, and Morphology of Humins in Biomass Conversion: Influence of Feedstock and Processing Conditions | ChemSusChem | 2013 | 511 |
30 | Carbon‐Based Electrochemical Capacitors | ChemSusChem | 2012 | 510 |
31 | Selective Degradation of Wood Lignin over Noble‐Metal Catalysts in a Two‐Step Process | ChemSusChem | 2008 | 506 |
32 | Lignin Valorization through Catalytic Lignocellulose Fractionation: A Fundamental Platform for the Future Biorefinery | ChemSusChem | 2016 | 500 |
33 | Sustainability in Catalytic Oxidation: An Alternative Approach or a Structural Evolution? | ChemSusChem | 2009 | 493 |
34 | Green Gasoline by Catalytic Fast Pyrolysis of Solid Biomass Derived Compounds | ChemSusChem | 2008 | 491 |
35 | The Electrochemical Reduction of Carbon Dioxide to Formate/Formic Acid: Engineering and Economic Feasibility | ChemSusChem | 2011 | 490 |
36 | Recycling of Polymers: A Review | ChemSusChem | 2014 | 489 |
37 | Biomass into Chemicals: Aerobic Oxidation of 5‐Hydroxymethyl‐2‐furfural into 2,5‐Furandicarboxylic Acid with Gold Nanoparticle Catalysts | ChemSusChem | 2009 | 468 |
38 | Development of Heterogeneous Catalysts for the Conversion of Levulinic Acid to γ‐Valerolactone | ChemSusChem | 2012 | 467 |
39 | Membrane Development for Vanadium Redox Flow Batteries | ChemSusChem | 2011 | 464 |
40 | On the Configuration of Supercapacitors for Maximizing Electrochemical Performance | ChemSusChem | 2012 | 446 |
41 | Synthesis of Cyclic Carbonates from Epoxides and Carbon Dioxide by Using Organocatalysts | ChemSusChem | 2015 | 429 |
42 | Hydrogen Production over Titania‐Based Photocatalysts | ChemSusChem | 2010 | 420 |
43 | Understanding the Fast Pyrolysis of Lignin | ChemSusChem | 2011 | 403 |
44 | Liquid‐Phase Chemical Hydrogen Storage: Catalytic Hydrogen Generation under Ambient Conditions | ChemSusChem | 2010 | 402 |
45 | Hydrogen Peroxide: A Key Chemical for Today's Sustainable Development | ChemSusChem | 2016 | 400 |
46 | Cu2O/Reduced Graphene Oxide Composites for the Photocatalytic Conversion of CO2 | ChemSusChem | 2014 | 398 |
47 | Green and Sustainable Chemical Synthesis Using Flow Microreactors | ChemSusChem | 2011 | 397 |
48 | Biorefining: Heterogeneously Catalyzed Reactions of Carbohydrates for the Production of Furfural and Hydroxymethylfurfural | ChemSusChem | 2011 | 394 |
49 | Vanadium Electrolyte Studies for the Vanadium Redox Battery—A Review | ChemSusChem | 2016 | 392 |
50 | Toxicity of Ionic Liquids: Eco(cyto)activity as Complicated, but Unavoidable Parameter for Task‐Specific Optimization | ChemSusChem | 2014 | 391 |