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The University of Chicago Pritzker School of Molecular Engineering integrates science and engineering to address global challenges from the molecular level up.
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At the UChicago Pritzker School of Molecular Engineering, we are scientists, engineers, and above all, global-problem solvers.
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Home
Faculty & Research
Lab Groups
Awschalom Group
Quantum Information Processing in Diamond
Electrical Tuning of Nitrogen-Vacancy Center Optical Transitions
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Quantum Information Processing in Diamond Overview
Institutes
Institutes Overview
Chicago Quantum Institute
Immunoengineering and Bioengineering Institute
Institute for Materials and Sustainability
Centers & Initiatives
Centers & Initiatives Overview
Berggren Center for Quantum Biology and Medicine
Chicago Immunoengineering Innovation Center (CIIC)
STAGE Center
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Impact Areas Overview
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Artificial Intelligence in Design Overview
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Quantum Information Processing in Diamond
Quantum Information Processing in Diamond Overview
All-Optical Control of a Single Spin Employing Coherent Dark States
All-Optical Holonomic Single-Qubit Gates
Calibration of Spin Rotation Using Adiabatic Passage
Chip-Scale Nanofabrication of Single Spins and Spin Arrays in Diamond
Computational Approach to Low-Dimensional Diamond Spin Baths
Electrical Tuning of Nitrogen-Vacancy Center Optical Transitions
Excited-State Spectroscopy Using Single Spin Manipulation
Fluorescence Thermometry Enhanced by the Quantum Coherence of Single Spins in Diamond
Gigahertz Dynamics of a Strongly Driven Single Quantum Spin
Lambda Systems for Geometric and Superadiabatic Control
Magnetic Sensing with Optically Trapped Nanodiamonds
Magnon-Mediated NV Interactions
Mapping Photocurrents in 2D Materials
Measurement and Control of Single Spins in Diamond Above 600 K
Polarization of Coupled Single Spins
Quantum Spin Probe of Single Charge Dynamics
Single Spin Spectroscopy
Spin-Wave Mediated Quantum Control
Spin-light Coupling for Coherent Measurement and Optical Control of Individual Spins
Storing Charge in Single-Crystal Diamond
Strain Relaxation in Nanodiamonds Using Bragg Coherent Diffraction Imaging
The Nitrogen Vacancy Center in Diamond
Ultrafast Control of Spin and Orbital Dynamics
Vector Magnetometry Using Spins in Diamond
Spin Control in Silicon Carbide
Spin Control in Silicon Carbide Overview
Charge Dynamics of Point Defects in SiC
Cr4+ in Commercial SiC
Electrically Driven Optical Interferometry and Universal Coherence Protection
Electrometry in SiC
Entanglement and Control of Single Nuclear Spins
Five-Second Coherence with Single-Shot Readout
High Fidelity Spin-to-Photon Conversion in SiC Defects
Integration with Scalable Semiconductor Diodes
Nitrogen-Vacancy Center in SiC
Photonic Cavities for Silicon Carbide Defect Spins
Purcell Enhancement with Coherent Spin Control
Room Temperature Coherent Control of Defect Spin Qubits in Silicon Carbide
Spectroscopy and Control of Cr4+ in SiC and GaN
Spectroscopy and Control of Cr4+ in SiC and GaN
Spin Coherence in Silicon Carbide Defects
Spin-Photon Interactions Addressed by Gaussian Acoustics
Vanadium in SiC
Molecular Spin Qubits
Molecular Spin Qubits Overview
Enhancing Spin Coherence through Host Matrix Engineering
Optically Addressable Chromium(IV) Molecular Qubits
Tunability of Cr4+ Molecular Qubits
Other Material and Qubit Platforms
Other Material and Qubit Platforms Overview
Erbium in Cerium Oxide
Quantum Computing with Defects
Spintronics
Spintronics Overview
Biased Spin Transfer
Chemically Synthesized Nanostructures
Coherent Dynamics of a Single Electron Spin
Current-Induced Spin Polarization
Electrical Control of Spin Coherence in ZnO
Electrical Control of Spin Coherence
Electrical Spin Injection from a Ferromagnet
Electrochemically Charged Quantum Dots
Electron Spin Coherence
GaAs
GaN
II-VI Materials
InAs Self Assembled Quantum Dots
Local Electrical and Optical Control of Spins During Transport
Macroscopic Transport of Spin Coherence
Molecular Bridges Between Quantum Dots
Nondestructive Optical Measurement of a Single Electron Spin
Physical Properties of Nanometer-scale Magnets
Room Temperature Spin Coherence in ZnO
Spin Coherence in Microcavities
Spin Hall Effect in Semiconductors
Spin Hall Effect in Two-dimensional Electron Gases
Spin Manipulation without Magnetic Fields in Strained Semiconductors
Spontaneous Spin Transfer
Ultrafast Manipulation of Electron Spin Coherence
Ultrafast Single Spin Manipulation
g-Tensor Modulation Resonance
Magnetism
Magnetism Overview
Ferromagnetic Imprinting
Individual Domain Wall Dynamics
Magnetic Parabolic Quantum Wells
Nuclear Spins in Ferromagnetic Diodes
Paramagnetic Semiconductors (II-VI)
Measurement Techniques
Measurement Techniques Overview
Time Resolved Faraday Rotation
Resonant Spin Amplification
Time Resolved Upconversion of Photoluminescence
All-Optical NMR
All-Optical NMR in a Quantum Well
Near-field Scanning Optical Microscopy
Quantum Dots
Magnetic Quantum Dots
Gallium Nitride
Micromagnetics
Rowan Group
Rowan Group Overview
Cellulose Nanocrystal Based Materials
Covalent Structurally Dynamic Polymers
Energy Storage Materials
Interlocked Macromolecules
Polymeric Materials for Water Based Separations
Tirrell Lab
Tirrell Lab Overview
Biomimetic Materials for Water Purification
Cancer Therapies
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Immunotherapy
Polyelectrolyte Brushes
Polyelectrolyte Complex Micelles
Treating Atherosclerosis
Publications
Partners & Facilities
Partners & Facilities Overview
Soft Matter Characterization Facility
Soft Matter Characterization Facility Overview
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