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Bi01: Energy Justice In Materials Science And Engineering
Bi01: Materials Research By The Lgbtqia+ Community And A Vision For Inclusivity
Bi02: Broadening Participation In Materials Research And Stem
Ch01 Advanced Characterization Techniques For Electrochemistry—accelerating Research And Development Of Energy Materials
Ch01: Advanced Characterization Methods Of Energy Material Applications
Ch01: Characterizing Dynamic Processes Of Materials Synthesis And Processing Via In Situ Techniques
Ch02 Advances In Cryogenic Transmission Electron Microscopy And Spectroscopy For Quantum And Energy Materials
Ch02: Advances In In Situ Tem Characterization Of Dynamic Processes In Materials
Ch02: Utilizing Advanced In Situ/operando Transmission Electron Microscopy And Spectroscopy For The Investigation Of Functional, Energy And Quantum Materials
Ch03 Neutron Scattering-enabled Energy Materials Design
Ch03: In Situ Characterization Methods For Nuclear Materials Applications
Ch03: Nanoscale Materials Characterization Through Atom Probe Tomography
Ch04: Characterization Of Materials Dynamics
Ch04: Emerging Electron Microscopy Techniques To Understand Structure-property Relationships In Quantum Materials
Ds01: Accelerating Materials Research With Ai-assisted Experimentation
Ds02: Automated Experimentation With Synchrotrons, Neutrons And Microscopes
Ds03: Emerging Challenges And Opportunities In Materials By Design
Ds04: Accelerating Data-driven Materials Research For Energy Applications
Ds05: Polymer Informatics—polymer Research With Classical And Data-driven Informatics
Ds06: Integrating Machine Learning With Simulations For Accelerated Materials Modeling
El01 Phase-change Materials For Emerging Applications In Reconfigurable Devices, Memory And Computing
El01: Defects And Strain In Two-dimensional Materials
El01: Surfaces And Interfaces In Electronics And Photonics
El02 Material Innovation Toward Stable Halide Perovskite Electronics
El02 Material Innovation Towards Stable Halide Perovskite Electronics
El02: Emerging Ultrafast Optical And Structural Probes In Materials Science
El02: Towards Atomically Precise Colloidal Materials For Conventional And Quantum Optoelectronics
El03 Frontiers In Electrochromic Materials And Devices
El03: Ferroic Materials And Heterostructures
El03: Next-generation Interconnects (materials, Processes And Integration)—toward Sustainable Microelectronics
El04 Metal Halide Perovskites For Applications Beyond Solar
El04: Materials And Devices For Neuromorphic Electronics And Bio-interfaces
El04: Wide And Ultra-wide Bandgap Materials, Devices And Applications
El05 Molecular And Colloidal Plasmonics—from Synthesis To Application
El05: Soft Optics
El05: Two-dimensional (2d) Materials And Heterostructures—large-scale Growth And Device Integration
El06 Adaptive Nanophotonics—dynamic Metasurfaces/metamaterials, Programmable Photonic Integrated Circuits And Neuromorphic Photonics
El06 Adaptive Nanophotonics—tunable, Reprogrammable And Integrated Nanophotonics
El06: Complex Oxide Epitaxial Thin Films—from Synthesis To Microelectronics
El06: Metamaterials Innovation In Photonics, Acoustics, Fluidics And Thermal Sciences
El07 Group Iv Nanostructures For Emerging Optoelectronics And Quantum Technologies
El07: 1d And 2d Materials—electronic Properties And Device Applications
El07: Emerging Ferroic Materials—synthesis, Properties And Applications
El08 Nanogenerators And Piezotronics
El08: Emerging Material Platforms And Fundamental Approaches For Plasmonics, Nanophotonics And Metasurfaces
El08: Plasmonics And Metasurfaces—design, Materials And Applications
El09 Layered (2d) Optoelectronic Materials And Devices
El09: 2ds Go Hybrid—properties And Applications Of Dimensionally Hybrid Systems
El10 Dynamical Molecular-scale Opto-electronic Devices
El10: Understanding The Inorganic-organic Interface—the Case Of Colloidal Nanoscale Materials
El11 Organic And Nanoparticle-based Electroluminescent Materials For Display, Lighting And Future Photonic Applications
El11: Ultra-wide Bandgap Materials, Devices And Applications
El12 From Molecules To Emerging Molecular Devices—beyond Electronic Transport
El12: Perspective On Applications Of Metasurfaces—advances In Metasurface Design, Fabrication, Integration And Material
El13 Organic Materials And Devices For Neuronal/neuromorphic Processing, Adaptive Sensing And Actuation
El13: Multiferroics And Magnetoelectrics
El14 High Throughput Discovery Of The Next-generation Perovskites For Opto-electronics
El14: Diamond Electronics, Devices And Sensors
El15 Radiation—hard And Lightweight Next-generation Semiconductor Electronics
El15: Chiral Materials—new Structures And Properties
El16 Plasmonics, Metasurfaces And Metamaterials-design, Materials And Applications
El16: Carrier-dopant Interactions In Organic Semiconductors—from Fundamentals To Applications
El17 Halide Perovskite And Other Low-dimensional Light Emitters—synthesis, Defect Passivation And Optoelectronic Applications
El17: Synthesis, Properties And Applications Of 2d Mxenes
El18 Material, Device And Fabrication Innovations For Flexible, Stretchable And Printed Electronics
El18: Fundamentals Of Mixed Ionic-electronic Conductors
El19 Advanced Materials In Scalable Miniaturized Technologies For Future Electronics
El19: Atomically-thin 2d Materials And Heterostructures—synthesis, Properties And Applications
El20 Photo And Radiation Detection With Organic, Perovskite And Nano-crystalline Semiconductors
El20: Future Materials And Technologies Toward Sustainable Heterogeneous Computing And Energy-efficient Machine Learning
El21 Materials Research Opportunities For Energy Efficient Computing
En01 Electrochemical Capacitors And Related Devices—fundamental, Materials And Cell Design
En01: Application Targets For Next Generation Photovoltaics
En01: Energy Solutions For Unconventional Applications
En02 Thin-film Compound Semiconductor Photovoltaics
En02: Cutting-edge Materials Design Toward Advanced Energy Harvesting—from Modeling To Manufacturing
En02: Solid-state Batteries—materials, Processes, Characterizations And Scale-up
En03 Caloric Materials For Heating And Cooling
En03: Biodegradable, Resorbable And Sustainable Materials
En03: Sustainability Of Emerging Photovoltaics
En04 Two-dimensional Materials For Energy Conversion
En04: Beyond 20% Efficiencies With Organic Solar Cell Devices
En04: Decoding Halide Perovskites—advanced Characterization Towards Optimization And Discovery
En05 Advances In Materials For Concentrated Solar Thermal Technologies
En05: Advances In Material, Catalyst And Device Design For Scalable Solar Fuel Production
En05: Halide Perovskites—from Fundamentals To Applications
En06 Advances In Solid-state Electrolyte Development
En06: Emerging Energy Applications Of Low-dimensional Layered And Crystalline Materials
En06: Make Energy Materials Sustainable Again
En07 Critical Materials For Energy—enhanced Functionality, Sustainable Supply And Replacement
En07: Emerging Electrocatalytic Materials And Devices For Clean Energy And Environmental Applications
En07: Thermal Transport And Energy Conversion
En08 Solid-state Batteries—devices, Interfaces And Characterization
En08: Advancements In Thermoelectric Materials, Module Technology And Applications
En08: Materials For Emerging Electrochemical Separations
En09 Polymeric And Organic Materials For Electrochemical Energy Storage
En09: Lithium-ion Battery Recycling And Reuse
En09: Nanostructured Electrocatalysts For Energy Applications
En10 Decomposing Materials Wastes—physical, Chemical And Biological Approaches
En10: From Single Atom To Device—interfaces Under Electrochemical Conditions
En10: Novel Approaches To Synthesize And Characterize Stable Halide Perovskites And Their Devices
En11 Advanced Materials For Thermal Management Of Human-building-energy Nexus
En11: Emerging Inorganic Semiconductors For Solar Energy And Fuels
Es01: Next-generation Ev Battery Materials—bridging Academic, Government And Industry Research
Es02: Operando Characterization Of Energy Storage Materials
Es03: Solid-state Batteries
Es04: Metal Anodes In Rechargeable Batteries—electrolyte, Interface And Mechanism
Es05: Materials Challenges For Flow-based Energy Conversion And Storage
Es06: Sulfur And Sulfide Chemistry In High Performance Electrochemical Energy Storage
Md01 Integrating Machine Learning And Simulations For Materials Modeling
Md02 Data-driven Multiscale Studies Of Materials-computations And Experiments
Mf01: Advances In Polymer-based Soft Matter For Additive Manufacturing
Mf02: Laser-induced Nanomaterials—synthesis, Properties And Applications
Mf03: Sustainable Polymers—from Fundamentals To Advanced Manufacturing And Applications
Mt01: Integrating Machine Learning And Simulations For Materials Modeling
Mt02: Battery Manufacturing—emerging Opportunities In Data-driven Experimentation, Analysis And Modeling
Mt03: Machine Learning Methods, Data And Automation For Sustainable Electronics
Nm01 Janus Nanomaterials-design, Fabrication And Applications
Nm01: Advances In 2d Mxenes
Nm02 2d Materials For Electrochemical Applications—leading The Charge Through Thermodynamic And Kinetic Knowledge Gaps
Nm02: Advances In Nanodiamonds
Nm03 Nanosized Photocatalysts—from Fundamentals To Applications
Nm03: Nanoscale Mass Transport Through 2d And 1d Nanomaterials
Nm04 Advanced Manufacturing Of 2d Materials At The Atomic Scale
Qm01 Novel Approaches To Manipulate And Detect 2d Magnetism In Van Der Waals Quantum And Topological Materials
Qm02 Functional Ferroic Materials For Unconventional Computing
Qm03 Symmetry-guided Rational Design And Control Of Transient And Metastable Quantum Phenomena
Qm04 Charged Topological Defects In Functional Materials
Qt01: Excitonic Materials
Qt01: Ultrafast Light-matter Interactions In Quantum Materials
Qt02: Low-dimensional Magnetic Quantum Materials
Qt02: Space, Energy And Time-resolved Spectroscopies For Emergent Quantum Materials
Qt03: Higher-order Topological Structures In Real Space—from Charge To Spin
Qt03: Physics Of 2d Halide And Chalcogenides Semiconductors
Qt04: 2d Topological Materials—theoretical Models, Growth And Applications
Qt04: Superconducting Materials
Qt05: Advances In Detection Methods For Emergent Phases In Quantum Materials
Qt06: Quantum Phenomena In Oxide—synthesis, Characterization And Automation
Qt07: 3d Topological Semimetals—from Fundamentals To Applications
Sb01 Fundamentals And Applications Of Engineered Living Materials
Sb01: Bioresponsive Nanotheranostics
Sb01: Engineering Future Food Materials—ingredients, Processes And Fabrication
Sb02 Emerging Nanotechnologies For Cellular Interrogation And Manipulation
Sb02: Biomimetic Organic And Hybrid Frameworks For Imaging, Encapsulation And Delivery
Sb02: Charge Carrier Transport In Organic And Organic-inorganic Hybrid Materials
Sb03 Thin-film Devices, Barriers And Their Reliability
Sb03 Thin-film Devices, Barriers And Their Reliability Under Extreme Conditions
Sb03: Materials, Devices And Systems For Neuromorphic Electronics—from Artificial Synapses To Bionic And Wearable Systems
Sb03: Molecular Biomimetics—biology Meets Materials Science And Artificial Intelligence At The Molecular Dimensions
Sb04 Flexible Bioelectronics For In Situ Analysis
Sb04: Conducting And Functional Hydrogels—from Materials To Devices
Sb04: Innovative Device And Characterization Concepts For Organic Electronics
Sb05 Nano-bio Interactions—from Design To Biological Response
Sb05: Biohybrid And Soft Functional Interfaces
Sb05: Materials And Systems For Fully Implantable Organ Interfaces
Sb06 Peptide And Protein-based Materials
Sb06: Biohybrid Materials And Devices For Sensing, Robotics, Energy And Biomedicine
Sb06: Experimental And Computational Advances In Biomolecular Electronics
Sb07 Frontiers Of Unconventional Polymer Networks
Sb07: Lipid Materials—theory, Fundamentals And Applications
Sb07: Translational Neuroelectronic Materials And Devices For Bioelectronic Medicine
Sb08 Soft Matter Materials And Mechanics For Haptic Interfaces
Sb08: Advanced Biomaterials And Bioelectronics For Neural Interfacing
Sb08: Bio-based Polymers And Composites For Sustainable Manufacturing
Sb09 Polymeric Electronic Materials And Devices For Biological Interfaces
Sb09: Bioelectricity And Recapitulation Of 3d Environment In Microbial And Tissue Engineering
Sb09: Biomaterials For Regenerative Engineering
Sb10: Bioinspired Organic Materials And Devices For Sensing And Computing
Sb10: From Soft Hydrogel Materials To Hard Water Sports Materials—bridging The Gap With Additive Manufacturing
Sb11: Bio-based And Biomimetic Polymers In Soft Robotics
Sb11: Wearable And Implantable Neuro- And Bio-electronics With 2d Materials
Sf01 High Entropy Materials—from Fundamentals To Potential Applications
Sf01: Additive Manufacturing—from Material Design To Emerging Applications
Sf01: High Entropy Oxides And Related Materials
Sf02 Materials In Space—design And Testing
Sf02: Actinide Materials
Sf02: Crystallization And Assembly At Interfaces—fundamental Breakthroughs Enabled By Data-centric Analysis And In Situ/operando Techniques
Sf03 Emerging Thermal Materials—from Nanoscale Heat Transport, Devices And Applications, To Theories
Sf03: Inorganic Materials To Overcome The Challenges Of Tomorrow
Sf03: Ion Insertion—fundamentals Processes And Applications To Switching
Sf04 Development And Design Of Responsive Architected Materials
Sf04: Expanding The Frontiers Of Plasma Technology In Materials Science And Engineering
Sf05 Building Advanced Materials Via Aggregation And Self-assembly
Sf05: Infrared Materials And Devices For Thermal Radiation Control
Sf06: From Robotic Towards Autonomous Materials
Sf07: Advances In Reactive Materials Engineering
Sf08: Design And Behavior Of Architectured Materials For And In Extreme Environments
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