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Materials Science and NanoEngineering

Yimo Han

Assistant Professor

Member, Ken Kennedy Institute

Dr. Han’s laboratory utilizes electron microscopy and related techniques to investigate a wide range of material systems including low-dimensional nanomaterials, biomaterials/molecules, and interfaces. Her lab aims to understand the structure and properties of material systems at an atomic level. Our ultimate goal is to provide novel materials/interface design for next-generation electronics, biosensing, clean energy harvesting, etc. As our group works at the intersection of materials, biology, and engineering, we are open to collaborations from all areas where small things make a difference.

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Average rating

3.7

17 temporary mock ratings

Difficulty

3.6

course-linked average

Courses

11

in seeded sections

Public profile

Biography

Dr. Han’s laboratory utilizes electron microscopy and related techniques to investigate a wide range of material systems including low-dimensional nanomaterials, biomaterials/molecules, and interfaces. Her lab aims to understand the structure and properties of material systems at an atomic level. Our ultimate goal is to provide novel materials/interface design for next-generation electronics, biosensing, clean energy harvesting, etc. As our group works at the intersection of materials, biology, and engineering, we are open to collaborations from all areas where small things make a difference.

Research areas

Dr. Han’s laboratory utilizes electron microscopy and related techniques to investigate a wide range of material systems including low-dimensional nanomaterials, biomaterials/molecules, and interfaces. Her lab aims to understand the structure and properties of material systems at an atomic level. Our ultimate goal is to provide novel materials/interface design for next-generation electronics, biosensing, clean energy harvesting, etc. As our group works at the intersection of materials, biology, and engineering, we are open to collaborations from all areas where small things make a difference.

Courses taught

APPL 007

Visiting Research

Research conducted by a visiting student scholars. Repeatable for Credit.

Applied PhysicsNone0 credits
4.23.3hAlabastri, Alessandro, Chen, Songtao, Han, Pu, Han, Yimo, Hazzard, Kaden, Huang, Shengxi, Igoshin, Oleg, Kono, Junichiro, Ma, Xuedan, Morosan, Emilia, Pagano, Guido, Pimpinelli, Alberto, Tringides, Christina, Veeraraghavan, Ashok, Zhu, Hanyu

APPL 800

Research And Thesis

Thesis research under the supervision of faculty. Repeatable for Credit.

Applied PhysicsNone1-15 credits
3.59.5hAjayan, Pulickel, Alabastri, Alessandro, Azhang, Behnam, Bagchi, Kushal, Baraniuk, Richard G, Biswal, Sibani, Brake, Matthew, Bulchandani, Vir, Chan, Anthony, Chen, Songtao, Dai, Pengcheng, Grande-Allen, K. Jane, Gustavsson, Anna-Karin, Halas, Naomi, Han, Yimo, Huang, Shengxi, Hulet, Randy, Kampouri, Stavroula, Kemere, Caleb, Killian, Thomas, Kono, Junichiro, Lee, Hae Yeon, Luan, Lan, Ma, Xuedan, Marciel, Amanda, Martin, Lane, Mohite, Aditya, Morosan, Emilia, Naik, Gururaj, Natelson, Doug, Nordlander, Peter, Pagano, Guido, Patel, Ankit, Patel, Tirthak, Pu, Han, Raphael, Rob, Robinson, Jacob, Sabharwal, Ashutosh, Sempionatto Moreto, Juliane, Shah, Nishal, Shee, James, Si, Qimiao, Szablowski, Jerzy, Tang, Ming, Tkaczyk, Tomasz, Tour, James, Tringides, Christina, Veeraraghavan, Ashok, Verduzco, Rafael, Vlassakis, Julea, Wehmeyer, Geoff, Wittung Stafshede, Pernilla, Wolynes, Peter, Wong, Michael, Xie, Chong, Xie, Yonglong, Yi, Ming, Zhang, Yirui Arlene, Zhao, Yuji, Zhu, Hanyu

BIOS 611

Research Seminar

Discussion of individual research or current topics in particular areas. Intended for students conducting research projects in the lab of the instructor. Repeatable for Credit.

BiosciencesNone1 credits
3.98.2hAjo-Franklin, Caroline, An, Linna, Bartel, Bonnie, Bashor, Caleb, Bennett, Matthew, Braam, Janet, Carson, Daniel, Chappell, James, de Moraes, Marcos, Gao, Yang, Glasscock, Cameron, Gustin, Michael, Han, Yimo, Hilton, Isaac, Iyer, Harini, Kirienko, Natasha, Lavery, Laura, Lieberman-Aiden, Erez, Loveless, Theresa, Luan, Lan, Lwigale, Peter, Matsuda, Seiichi P., McNew, James, Nikonowicz, Edward, Onuchic, Jose, Rosenberg, Susan, Sawakuchi, Gabriel, Segatori, Laura, Shamoo, Yousif, Silberg, Joff, Stewart, Charles, Tao, Yizhi, Uribe, Rosa, Wagner, Daniel, Wittung Stafshede, Pernilla, Wolynes, Peter, Xiao, Han, Zhou, Zheng

BIOS 800

Bcb Graduate Research

Biochemistry & Cell Biology graduate research. Repeatable for Credit.

BiosciencesNone1-15 credits
3.96.1hAjo-Franklin, Caroline, An, Linna, Bartel, Bonnie, Bashor, Caleb, Bennett, Matthew, Braam, Janet, Carson, Daniel, Chappell, James, de Moraes, Marcos, Gao, Yang, Glasscock, Cameron, Gustin, Michael, Han, Yimo, Hilton, Isaac, Iyer, Harini, Kirienko, Natasha, Lavery, Laura, Lieberman-Aiden, Erez, Loveless, Theresa, Luan, Lan, Lwigale, Peter, Matsuda, Seiichi P., McNew, James, Nikonowicz, Edward, Onuchic, Jose, Rosenberg, Susan, Sawakuchi, Gabriel, Segatori, Laura, Shamoo, Yousif, Silberg, Joff, Stewart, Charles, Tao, Yizhi, Uribe, Rosa, Wagner, Daniel, Wittung Stafshede, Pernilla, Wolynes, Peter, Xiao, Han, Zhou, Zheng

CHEM 580

Microscopy Methods

This course covers theory and applications of electron microscopy techniques with an emphasis on transmission and scanning transmission electron microscopy (TEM, STEM). Topics include modern instrumentation and hardware, electron diffraction, imaging modes, tomography, and spectroscopy (energy dispersive x-ray spectroscopy (EDS), electron-energy loss spectroscopy (EELS), cathodoluminescence (CL)). Previous experience with electron microscopes recommended. This course includes lab demos of SEM and TEM. Cross-list: MSNE 580.

ChemistryNone3 credits
3.69.0hHan, Yimo

CHEM 800

Graduate Research

Repeatable for Credit.

ChemistryNone1-15 credits
3.97.7hAjayan, Pulickel, Alvarez, Pedro, Bagchi, Kushal, Ball, Zachary, Bao, Gang, Dai, Mingjie, Diehl, Michael, Gustavsson, Anna-Karin, Hafner, Jason, Halas, Naomi, Han, Yimo, Hartgerink, Jeffrey, Hernandez Sanchez, Raul, Hulet, Randy, Igoshin, Oleg, Jones, Matt, Kampouri, Stavroula, Kolomeisky, Anatoly, Kurti, Laszlo, Lou, Jun, Ma, Yuan, MacKintosh, Frederick, Marciel, Amanda, Marti-Arbona, Angel, Martin, Lane, Masiello, Carrie, Matsuda, Seiichi P., McHugh, Kevin, Mikos, Antonios, Mohite, Aditya, Morosan, Emilia, Mou, Quanbing, Nevidomskyy, Andriy, Nienhaus, Lea, Nordlander, Peter, Onuchic, Jose, Pasquali, Matteo, Renata, Hans, Sarlah, David, Scuseria, Gustavo, Shee, James, Tour, James, Wang, Haotian, Weisman, Bruce, West, Julian, Wittung Stafshede, Pernilla, Wolynes, Peter, Wong, Michael, Xiao, Han, Yakobson, Boris, Yruegas, Samantha

MSNE 007

Visiting Research

Research conducted by visiting student scholars. Repeatable for Credit.

Materials Science & NanoEngNone0 credits
3.52.0hAjayan, Pulickel, Han, Yimo, Kono, Junichiro, Ma, Xuedan, Yakobson, Boris, Zhu, Hanyu

MSNE 580

Microscopy Methods

This course covers theory and applications of electron microscopy techniques with an emphasis on transmission and scanning transmission electron microscopy (TEM, STEM). Topics include modern instrumentation and hardware, electron diffraction, imaging modes, tomography, and spectroscopy (energy dispersive x-ray spectroscopy (EDS), electron-energy loss spectroscopy (EELS), cathodoluminescence (CL)). Previous experience with electron microscopes recommended. This course includes lab demos of SEM and TEM. Cross-list: CHEM 580.

Materials Science & NanoEngNone3 credits
3.912.2hHan, Yimo

MSNE 621

M.M.S. Research Project I

This is the first part of the M.M.E. research project course. The faculty advisor, taking into account the background and research interests of the student as well as the research interests of the faculty advisor, will determine the contents. Course requirements will include a final report. Repeatable for Credit.

Materials Science & NanoEngNone3 credits
3.98.5hAjayan, Pulickel, Barrera, Enrique, Han, Yimo, Lee, Hae Yeon, Lou, Jun, Ma, Xuedan, Tang, Ming, Tringides, Christina, Vajtai, Robert, Zhu, Hanyu

MSNE 622

M.M.S. Research Project II

This is the second part of the M.M.E. research project and continuation of MSNE 621. Course requirements will include a final report. Repeatable for Credit.

Materials Science & NanoEngNone3 credits
3.78.6hAjayan, Pulickel, Han, Yimo, Lee, Hae Yeon, Lou, Jun, Lozano, Karen, Ma, Xuedan, Pasquali, Matteo, Tang, Ming, Tringides, Christina, Vajtai, Robert, Yakobson, Boris, Zhu, Hanyu

MSNE 800

Research And Thesis

Thesis research Repeatable for Credit.

Materials Science & NanoEngNone1-12 credits
3.78.0hAjayan, Pulickel, Barrera, Enrique, Han, Yimo, Hautier, Geoffroy, Keene, Scott, Lee, Hae Yeon, Lou, Jun, Lozano, Karen, Ma, Xuedan, Martin, Lane, Pirie, Harris, Tang, Ming, Tour, James, Tringides, Christina, Wong, Michael, Yakobson, Boris, Zhu, Hanyu

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