Energy and Sustainability
Energy and Sustainability research addresses the acute problems of pollution and carbon emissions. We develop processes to make chemicals and materials via green chemistry, create sustainable materials (recyclable biodegradable plastics and more), and advance new ideas for energy systems such as batteries and solar cells.
Chemistry and the environment
Molecular electronics
Prof. Brian Berkowitz
research areas
-
Earth and Planetary Science
-
Water & Environment
-
Environmental chemistry
-
Health effects of air pollution
-
Hydrology
-
Soils
-
-
-
Energy and Sustainability
-
Chemistry and the environment
-
-
Organic Chemistry
-
Catalysis
-
-
Structural and Molecular Biology
-
Biomineralization
-
-
Theory and Computations
-
Disordered systems
-
Nonlinear dynamics & pattern formation
-
Reaction mechanisms
-
Prof. David Cahen
research areas
-
Chemical Physics
-
Molecular electronics
-
-
Energy and Sustainability
-
Molecular electronics
-
Storage & conversion
-
Sustainable materials
-
-
Materials and Nanoscience
-
Interfaces
-
Optical and electronic properties
-
Dr. Baran Eren
research areas
-
Chemical Physics
-
Spectroscopy & microscopy
-
Surface science
-
-
Energy and Sustainability
-
Catalysis
-
Chemistry and the environment
-
Energy storage & conversion devices
-
Storage & conversion
-
-
Materials and Nanoscience
-
Advanced spectroscopy & microscopy
-
Interfaces
-
Mechanical properties
-
Optical and electronic properties
-
Surface science
-
Prof. Gary Hodes
research areas
-
Energy and Sustainability
-
Energy storage & conversion devices
-
Storage & conversion
-
Synthesis
-
-
Materials and Nanoscience
-
Interfaces
-
Optical and electronic properties
-
Surface science
-
Prof. Ernesto Joselevich
research areas
-
Atomic, Molecular and Optical Physics
-
Nonlinear optics
-
Novel optical materials
-
Spectroscopy & Microscopy
-
-
Chemical Physics
-
Light & matter
-
Quantum science and technologies
-
Surface science
-
-
Energy and Sustainability
-
Energy storage & conversion devices
-
Molecular electronics
-
Storage & conversion
-
Synthesis
-
-
Materials and Nanoscience
-
Advanced spectroscopy & microscopy
-
Interfaces
-
Mechanical properties
-
Nano-synthesis & fabrication
-
Optical and electronic properties
-
Self-assembly
-
Surface science
-
Prof. Leeor Kronik
research areas
-
Chemical Physics
-
Molecular dynamics
-
Molecular electronics
-
Spectroscopy & microscopy
-
Spin physics
-
Surface science
-
-
Energy and Sustainability
-
Storage & conversion
-
Sustainable materials
-
-
Materials and Nanoscience
-
Advanced spectroscopy & microscopy
-
Interfaces
-
Mechanical properties
-
Optical and electronic properties
-
Surface science
-
-
Organic Chemistry
-
Molecular modeling
-
Supramolecular chemistry
-
-
Supramolecular Chemistry
-
Materials
-
-
Theory and Computations
-
Ab initio and classical computational approaches
-
Electronic structure & excited state methods
-
Materials science
-
Prof. Michal Leskes
research areas
-
Chemical Physics
-
Magnetic resonance
-
Spectroscopy & microscopy
-
Spin physics
-
-
Energy and Sustainability
-
Energy storage & conversion devices
-
Storage & conversion
-
Synthesis
-
-
Materials and Nanoscience
-
Advanced spectroscopy & microscopy
-
Interfaces
-
Surface science
-
Dr. Elena Meirzadeh
research areas
-
Chemical Physics
-
Quantum science and technologies
-
-
Energy and Sustainability
-
Energy storage & conversion devices
-
Storage & conversion
-
Sustainable materials
-
Synthesis
-
-
Materials and Nanoscience
-
Mechanical properties
-
Nano-synthesis & fabrication
-
Optical and electronic properties
-
Prof. David Milstein
research areas
-
Energy and Sustainability
-
Catalysis
-
Chemistry and the environment
-
Storage & conversion
-
Sustainable materials
-
-
Organic Chemistry
-
Catalysis
-
Green chemistry & energy
-
Metal-ligand coordination
-
Synthesis
-
Prof. Ronny Neumann
research areas
-
Energy and Sustainability
-
Catalysis
-
Chemistry and the environment
-
Storage & conversion
-
Synthesis
-
-
Organic Chemistry
-
Catalysis
-
Green chemistry & energy
-
Materials & nanochemistry
-
Metal-ligand coordination
-
Supramolecular chemistry
-
-
Supramolecular Chemistry
-
Catalysis
-
Materials
-
Metal-ligand coordination
-
Prof. Dan Oron
research areas
-
Atomic, Molecular and Optical Physics
-
Light & Matter
-
Nonlinear optics
-
Novel optical materials
-
Quantum Optics
-
Spectroscopy & Microscopy
-
-
Chemical Physics
-
Light & matter
-
Quantum optics
-
Quantum science and technologies
-
Spectroscopy & microscopy
-
-
Energy and Sustainability
-
Sustainable materials
-
-
Materials and Nanoscience
-
Advanced spectroscopy & microscopy
-
Nano-synthesis & fabrication
-
Optical and electronic properties
-
-
Structural and Molecular Biology
-
Biomineralization
-
Dr. Sivan Refaely-Abramson
research areas
-
Chemical Physics
-
Light & matter
-
Quantum science and technologies
-
Spectroscopy & microscopy
-
Spin physics
-
Surface science
-
-
Energy and Sustainability
-
Energy storage & conversion devices
-
Storage & conversion
-
Sustainable materials
-
-
Materials and Nanoscience
-
Interfaces
-
Optical and electronic properties
-
Surface science
-
-
Organic Chemistry
-
Catalysis
-
Green chemistry & energy
-
Materials & nanochemistry
-
-
Theory and Computations
-
Ab initio and classical computational approaches
-
Electronic structure & excited state methods
-
Materials science
-
Prof. Boris Rybtchinski
research areas
-
Biological Physics
-
Protein dynamics
-
-
Chemical Physics
-
Molecular dynamics
-
Quantum science and technologies
-
Spectroscopy & microscopy
-
Surface science
-
-
Energy and Sustainability
-
Chemistry and the environment
-
Energy storage & conversion devices
-
Storage & conversion
-
Sustainable materials
-
-
Materials and Nanoscience
-
Advanced spectroscopy & microscopy
-
Mechanical properties
-
Nano-synthesis & fabrication
-
Optical and electronic properties
-
Self-assembly
-
Soft matter
-
-
Organic Chemistry
-
Green chemistry & energy
-
Materials & nanochemistry
-
Sensors & biosensors
-
Supramolecular chemistry
-
Synthesis
-
X-ray crystallography
-
-
Supramolecular Chemistry
-
Biomolecular assemblies
-
Materials
-
Molecular-based devices
-
Synthesis
-
Dr. Sergey Semenov
research areas
-
Chemical Biology
-
Molecular sensors and probes
-
-
Energy and Sustainability
-
Catalysis
-
Synthesis
-
-
Materials and Nanoscience
-
Self-assembly
-
Soft matter
-
-
Organic Chemistry
-
Catalysis
-
Electrochemistry
-
Green chemistry & energy
-
Metal-ligand coordination
-
Supramolecular chemistry
-
Synthesis
-
Systems chemistry
-
X-ray crystallography
-
-
Supramolecular Chemistry
-
Biomimicry
-
Biomolecular assemblies
-
Catalysis
-
Materials
-
Metal-ligand coordination
-
Molecular-based devices
-
Synthesis
-
Systems chemistry
-
-
Theory and Computations
-
Nonlinear dynamics & pattern formation
-
Reaction mechanisms
-
Systems far from equilibrium
-
Prof. Oren Tal
research areas
-
Chemical Physics
-
Quantum science and technologies
-
Spectroscopy & microscopy
-
Spin physics
-
-
Energy and Sustainability
-
Energy storage & conversion devices
-
Molecular electronics
-
-
Materials and Nanoscience
-
Advanced spectroscopy & microscopy
-
Interfaces
-
Mechanical properties
-
Nano-synthesis & fabrication
-
Optical and electronic properties
-
Surface science
-
Prof. Daniel Hanoch Wagner
research areas
-
Biological Physics
-
Bio-materials
-
Cell Mechanics & mechanobiology
-
Interfaces
-
-
Energy and Sustainability
-
Sustainable materials
-
-
Materials and Nanoscience
-
Advanced spectroscopy & microscopy
-
Interfaces
-
Mechanical properties
-
Soft matter
-
-
Organic Chemistry
-
X-ray crystallography
-
-
Structural and Molecular Biology
-
Biomineralization
-
Electron microscopy
-
-
Supramolecular Chemistry
-
Biomimicry
-
Materials
-
Dr. Omer Yaffe
research areas
-
Chemical Physics
-
Light & matter
-
Molecular dynamics
-
Spectroscopy & microscopy
-
-
Energy and Sustainability
-
Storage & conversion
-
Sustainable materials
-
-
Materials and Nanoscience
-
Mechanical properties
-
Optical and electronic properties
-
Surface science
-
-
Supramolecular Chemistry
-
Materials
-
Prof. Milko van der Boom
research areas
-
Chemical Physics
-
Molecular electronics
-
Spectroscopy & microscopy
-
Surface science
-
-
Energy and Sustainability
-
Energy storage & conversion devices
-
Molecular electronics
-
Storage & conversion
-
Sustainable materials
-
Synthesis
-
-
Materials and Nanoscience
-
Advanced spectroscopy & microscopy
-
Interfaces
-
Mechanical properties
-
Nano-synthesis & fabrication
-
Optical and electronic properties
-
Self-assembly
-
Soft matter
-
Surface science
-
-
Organic Chemistry
-
Catalysis
-
Electrochemistry
-
Electron microscopy
-
Green chemistry & energy
-
Materials & nanochemistry
-
Metal-ligand coordination
-
Sensors & biosensors
-
Supramolecular chemistry
-
Synthesis
-
Systems chemistry
-
X-ray crystallography
-
-
Supramolecular Chemistry
-
Catalysis
-
Host–guest chemistry & sensors
-
Materials
-
Metal-ligand coordination
-
Molecular-based devices
-
Synthesis
-
Systems chemistry
-