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.

Announcements


  • Congratulations, Jaeyoung!

    Congratulations to Jaeyoung on defending his PhD thesis!

  • Congratulations to Cherie on being named an MRS Fellow!

    MRS Fellows are honored for their distinguished research accomplishments and outstanding contributions to the advancement of materials research (more).

  • Congratulations, Sarah!

    Congratulations to Sarah on defending her PhD thesis!

  • Welcome, Ilia!

    Ilia Geints has joined our group as a first-year PhD student in the Electrical and Systems Engineering (ESE) department.

  • Welcome, Gary!

    Gary Chen has joined our group as a first-year PhD student in the chemistry department.

  • Welcome, Anamika!

    Anamika Singh has joined our group as a postdoctoral researcher.

Research Highlights


Gate-Tunable Optical Anisotropy in Wafer-Scale, Aligned Carbon Nanotube Films

Lynch, Jason; Smith, Evan; Alfieri, Adam; Song, Baokun; Klein, Matthew; Stevens, Christopher E.; Chen, Cindy Yueli; Lawrence, Chavez FK.; Kagan, Cherie R.; Gu, Honggang; Liu, Shiyuan; Peng, Lian-Mao; Vangala, Shivashankar; Hendrickson, Joshua R.; Jariwala, Deep

Gate-Tunable Optical Anisotropy in Wafer-Scale, Aligned Carbon Nanotube Films Journal Article

In: Nature Photonics, 2024.

Abstract | Links | BibTeX

Stabilizing alkaline fuel cells with a niobium-doped brookite titanium dioxide catalyst support

Liu, Chang; Jung, Wonil; Jeon, Sungho; Johnson, Grayson; Shi, Zixiao; Xiao, Langqiu; Yang, Shengsong; Chen, Cheng-Yu; Xu, Jun; Kagan, Cherie R.; Zhang, Sen; Muller, David A.; Stach, Eric A.; Murray, Christopher B.; Mallouk, Thomas E.

Stabilizing alkaline fuel cells with a niobium-doped brookite titanium dioxide catalyst support Journal Article

In: Cell Reports Physical Science, 2024.

Abstract | Links | BibTeX

Nanodiamond emulsions for enhanced quantum sensing and click-chemistry conjugation

Shulevitz, Henry J.; Amirshaghaghi, Ahmad; Ouellet, Mathieu; Brustoloni, Caroline; Yang, Shengsong; Ng, Jonah J.; Huang, Tzu-Yung; Jishkariani, Davit; Murray, Christopher B.; Tsourkas, Andrew; Kagan, Cherie R.; Bassett, Lee C.

Nanodiamond emulsions for enhanced quantum sensing and click-chemistry conjugation Journal Article

In: ACS Applied Nano Materials, 2024.

Abstract | Links | BibTeX

Chemically Driven Sintering of Colloidal Cu Nanocrystals for Multiscale Electronic and Optical Devices

Xu, Jun; Zhao, Tianshuo; Zaccarin, Anne-Marie; Du, Xingyu; Yang, Shengsong; Ning, Yifan; Xiao, Qiwen; Kramadhati, Shobhita; Choi, Yun Chang; Murray, Christopher B.; III, Roy H. Olsson; Kagan, Cherie R.

Chemically Driven Sintering of Colloidal Cu Nanocrystals for Multiscale Electronic and Optical Devices Journal Article

In: ACS Nano, 2024.

Abstract | Links | BibTeX

Porous Magneto-Fluorescent Superparticles by Rapid Emulsion Densification

Marino, Emanuele; Vo, Thi; Gonzalez, Cristian; Rosen, Daniel J.; Neuhaus, Steven J.; Sciortino, Alice; Bharti, Harshit; Keller, Austin W.; Kagan, Cherie R.; Cannas, Marco; Messina, Fabrizio; Glotzer, Sharon C.; Murray, Christopher B.

Porous Magneto-Fluorescent Superparticles by Rapid Emulsion Densification Journal Article

In: Chemistry of Materials, 2024.

Abstract | Links | BibTeX