Cherie R Kagan Research Group

The Kagan group’s research is focused on studying the chemical and physical properties of nanostructured materials and in integrating materials with optical, electrical, magnetic, mechanical, and thermal properties for (multi-)functional devices. We combine the flexibility of chemistry and bottom-up assembly with top-down fabrication techniques to design materials and devices. We explore the properties of materials and measure the characteristics of devices using spatially- and temporally-resolved optical spectroscopies, AC and DC electrical techniques, electrochemistry, scanning probe and electron microscopies, and analytical measurements.

mixed superparamagnetic plasmonic superparticles

Announcements

Congratulations to Cherie on Being Elected a 2025 AAAS FellowApril 8, 2026
The American Association for the Advancement of Science (AAAS), a society with a mission to “advance science, engineering, and innovation throughout the world for the benefit of all,” has named a class of Fellows since 1874. Cherie is being recognized as a 2025 Fellow in… Read more: Congratulations to Cherie on Being Elected a 2025 AAAS Fellow
Congratulations to Cherie on Signing the Academy’s Book of Members during her Induction!January 27, 2026
On Oct. 11, 2025, Cherie joined the 2025 Class of the American Academy of Arts and Sciences’s Induction Ceremony to become an official member.
Welcome, Michelle!October 22, 2025
Michelle Riemann has joined our group as a first-year PhD student in the Electrical and Systems Engineering (ESE) department.
Welcome, Quinn!October 22, 2025
Quinn Haverstick has joined our group as a first-year PhD student in the Electrical and Systems Engineering (ESE) department.
Congratulations to Jonah on Winning Best Poster in IMOD!September 1, 2025
Jonah presented a poster of his work on improving device properties by a controllable atomic layer deposition process at the 2025 IMOD Annual Meeting in Seattle, WA.

Research Highlights

Xu, Jun; Ng, Jonah J.; Cai, Lujie; Zaccarin, Anne-Marie; Zhan, Runyang; Hua, Yucong; Machold, Michael; Raney, Jordan R.; Turner, Kevin T.; III, Roy H. Olsson; Kagan, Cherie R.

Non-Newtonian Binary Cu Nanocrystal–Microcrystal Colloidal Inks for Printable Nanoscale-Soldered Conductors and RF Electronics Journal Article

In: ACS Applied Materials & Interfaces, 2026.

Links | BibTeX

Ng, Jonah J.; Ladd, Dylan M.; Mallavarapu, Akhila; White, Keith P.; Chen, Gary; Yang, Shengsong; Xu, Jun; Tian, Tony; Murray, Christopher B.; Toney, Michael F.; Kagan, Cherie R.

All-Inorganic, Bicontinuous, Bandgap-Engineered Epitaxially-Fused PbSe Quantum Dot/CdS Matrix Heterostructures for Optoelectronic and Electronic Applications Journal Article

In: ACS Nano, 2026.

Links | BibTeX

Gonzalez, Cristian; Choi, Yun Chang; Chen, Gary; Xu, Jun; Kang, Clair Yejin; Marino, Emanuele; Kagan, Cherie R.; Murray, Christopher B.

Cavity-Mediated Radiative Energy Transfer Enables Stable, Low-Threshold Lasing in Hybrid Quantum Dot-Nanoplatelet Supraparticles Journal Article

In: ACS Nano, 2026.

Links | BibTeX

Alfieri, Adam D.; Das, Swarnendu; Kisslinger, Kim; Everhart, Brian M.; Leblanc, Chloe; Ford, Jamie; Kagan, Cherie R.; Glavin, Nicholas R.; Stach, Eric A.; Jariwala, Deep

Hydrazine-free precursor for solution-processed all-inorganic Se and Se1−xTex photovoltaics Journal Article

In: Journal of Materials Chemistry A, 2025.

Links | BibTeX

Cai, Yi-Yu; Gu, Zeyu; Yang, Shengsong; Murray, Christopher B.; Kagan, Cherie R.

Shape effects on the 2D self-assembly of lithographically fabricated nanoparticles Journal Article

In: Nanoscale, 2025.

Links | BibTeX