Sustainable Nanoscale Engineering

<p>1. Challenges and Directions for Green Chemical Engineering - Role of Nanoscale Materials<br>2. Nature-Inspired Chemical Engineering: A New Design Methodology for Sustainability<br>3. Manufacturing Nanoporous Materials for Energy-Efficient Separations: Application and Challenges<br>4. Sustainability of One-Dimensional Nanostructures: Fabrication and Industrial Applications<br>5. Porous Materials for Catalysis: Toward Sustainable Synthesis and Applications of Zeolites<br>6. Green Synthesis and Engineering Applications of Metal-Organic Frameworks<br>7. Metal-Organic Frameworks (MOFs) and MOF-Derived Porous Carbon Materials for Sustainable Adsorptive Wastewater Treatment<br>8. Toward Sustainable Chemical Processing With Graphene-Based Materials<br>9. Polymers of Intrinsic Microporosity and Their Potential in Process Intensification<br>10. Polymer Membranes for Sustainable Gas Separation<br>11. Block Copolymer Membranes<br>12. Imprinted Materials: From Green Chemistry to Sustainable Engineering<br>13. Fundamental Theory and Molecular Design of Thermoresponsive Polymers Expandable to Sustainable and Smart Materials<br>14. Nanostructured Membranes for Enhanced Forward Osmosis and Pressure-Retarded Osmosis<br>15. Sustainable Approaches for Materials Engineering With Supercritical Carbon Dioxide<br>16. Rational Design of Continuous Flow Processes for Synthesis of Functional Molecules<br>17. Systematic MultiObjective Life Cycle Optimization Tools Applied to the Design of Sustainable Chemical Processes</p> <p><br> </p>