Research Theme 1:

Precision Synthesis

Research Theme 1: Precision Synthesis

Research Theme 1 (RT-1) includes the teams that are developing new chemical reactions to synthesize the building blocks that make up the next generation of optoelectronic devices.

Transforming optical technologies with colloidal quantum dots begins with synthesizing novel materials that have superior performance and can be easily handled and incorporated into devices and applications. Members of RT-1 are advancing the fundamental science underpinning colloidal semiconductors.

Combining multi-level theory and experimentation the team engaged in RT-1 are innovating techniques to control the precision synthesis of colloidal materials and their surfaces to produce quantum dots with advanced combinations of color purity (linewidth), stability, brightness, and processability from ensembles down to single dot precision.

RT-1’s collaboration with RT-2 revolves around the design of new materials that enable accurate and reliable placement of the new materials in device architectures. RT-1’s collaboration with RT-3 uses the feedback from device engineers to innovate on new materials that have properties desired in new device structures.

Find out more about the IMOD members participating in RT-1 research, and check out some of the recent RT-1 publications.

RT-1 Research Groups

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Recent RT-1 Publications

Navigating the Potential Energy Surface of CdSe Magic-Sized Clusters: Synthesis and Interconversion of Atomically Precise Nanocrystal Polymorphs

Navigating the Potential Energy Surface of CdSe Magic-Sized Clusters: Synthesis and Interconversion of Atomically Precise Nanocrystal Polymorphs

December 7, 2023

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2023, 145, 50, 27480-27492

https://doi.org/10.1021/jacs.3c08897

Crystallization of binary nanocrystal superlattices and the relevance of short-range attraction

Crystallization of binary nanocrystal superlattices and the relevance of short-range attraction

October 12, 2023

NATURE SYNTHESIS, 2024, 3, 111-122

https://doi.org/10.1038/s44160-023-00407-2

Designer quantum dot molecules and beyond

Designer quantum dot molecules and beyond

September 27, 2023

NATURE MATERIALS, 2023, 22, 1167-1168

https://doi.org/10.1038/s41563-023-01652-8

Ligand Steric Profile Tunes the Reactivity of Indium Phosphide Clusters

Ligand Steric Profile Tunes the Reactivity of Indium Phosphide Clusters

September 18, 2023

Prepreint: ChemRxiv

https://doi.org/10.26434/chemrxiv-2023-555vg

Measuring Relative Energies of Ligand Binding Conformations on Nanocluster Surfaces with Temperature-Dependent FTIR Spectroscopy

Measuring Relative Energies of Ligand Binding Conformations on Nanocluster Surfaces with Temperature-Dependent FTIR Spectroscopy

August 21, 2023

JOURNAL OF PHYSICAL CHEMISTRY C, 2023, 127, 34, 16970-16978

https://doi.org/10.1021/acs.jpcc.3c03951

Navigating the Potential Energy Surface of CdSe Magic-Sized Clusters: Synthesis and Interconversion of Atomically Precise Nanocrystal Polymorphs

Navigating the Potential Energy Surface of CdSe Magic-Sized Clusters: Synthesis and Interconversion of Atomically Precise Nanocrystal Polymorphs

August 16, 2023

Preprint: ChemRxiv

https://doi.org/10.26434/chemrxiv-2023-jzwm3