Aerospace Engineering Seminar Series: TBA

Thursday, January 22, 2026; 3:00pm-4:00pm
ECoRE
Speaker: TBA from

Hosted by: Jessica Chhan,  jmc7050@psu.edu

Community-Based Approaches to Mitigate the Effects of Substance Use Disorder

Wednesday, January 21, 2026; 121 Earth & Engineering Science Building
3:35-4:25 p.m.
Speaker: Paul M. Griffin from IME

Bio: Paul Griffin is the Lucas Professor of Industrial Engineering and a co-funded faculty member in the Consortium on Substance Use and Addiction in the Social Science Research Institute at Penn State University. His research and teaching interests include health systems engineering, health analytics, and supply chain engineering. Before Penn State, Paul was the St. Vincent Health Chair at Purdue University and director of the Regenstrief Center for Healthcare Engineering. He was also the Joseph C. Mello Chair in the School of Industrial and Systems Engineering at Georgia Tech, where he started his academic career after completing his PhD in Industrial Engineering at Texas A&M University. He is a fellow of the Institute of Industrial and Systems Engineers and the American Institute for Medical and Biological Engineering.

Hosted by: Lana Fulton,  lub18@psu.edu

Aerospace Engineering Seminar Series: TBA

Thursday, January 29, 2026; 3:00pm-4:00pm
ECoRE
Speaker: from

Hosted by: Jessica Chhan,  jmc7050@psu.edu

Physics of nanoscale spectral imaging beyond diffraction limit

Wednesday, January 28, 2026; 121 Earth & Engineering Science Building
335PM-425PM
Speaker: Slava Rotkin from ESM

Abstract: Recent success in synthesis of new two-dimensional materials (2DM) beyond graphene (including TMDCs, heteronanotubes, hBN family, MXenes and atomic polar metals), was followed by a large number of works exploring their properties and seeking for novel applications in quantum technologies, biosensing, energy and computing. Atomically thin 2DMs have an ultimate surface-to-volume ratio. While it helps biosensing, electronics and other applications, surface non-uniformities may drastically increase variability of materials properties. Such non-uniformities are known to be a critical limiting factor for other types of nanomaterials as well. Modulation of optical properties at the nanometer scale due to atomic impurities or adsorbates or defects, wrinkles or ruptures, lattice mismatch, doping and work function variation is important to be able to control. However, even before developing synthetic approach to mitigate the problem, appropriate characterization tools are needed to detect such a modulation.

In this talk, several methods for nanoscale (sub-diffractional) optical characterization will be presented. Correlated multiplexed (multidimensional) optical imaging technique will be introduced using a few examples including: a vertical heterostructure comprised of monolayer graphene and single layer flakes of MoS2,[1] heteronanotubes with carbon core and hBN/MoS2 shell,[2] glass nanoindentations[3,9] and heterostructures of graphene/Ag/SiC atomic layers[4,10]. The correlation of several information channels (including microRaman[5,6]) allows one to obtain information on, e.g., local Fermi level and strain tensor components[1] or distribution of chemical bonds in a glassy material[3].

It will be shown that similar results could be obtained using scattering Scanning Near-field Optical Microscopy (sSNOM), the technique which produces multidimensional information in a single run. sSNOM will be shown to map polaritonic wavefunction and detect polaritonic confinement in heterostructures of atomic-thin metals[10]. As the time allows, a quantum theory of sSNOM imaging will be discussed [7,8].

Literature:

1. ACS Nano 2022, 16, 2598.

2. ACS Nano 2021, 15, 5600.

3. Acta Materialia 2021, 208, 116694.

4. Science Advances 2025, 11, eadw1800.

5. Nature Comm 2015, 6, 8429.

6. J Mat Chem B 2017, 5, 6536.

7. ACS Nano 2015, 20, 360.

8. S.V. Rotkin, Materials Science & Technology 2022 (October 9-13, Pittsburgh, PA).

9. Ceramics International 2024, 50 Part A, 32457.

10. X. Li, et.al, (submitted).

Bio:

Slava V. Rotkin is Frontier Professor of Engineering Science & Mechanics at Penn State University. He received MSc in Optoelectronics from Electrotechnical University and Ph.D. in Physics & Mathematics at Ioffe Institute (St. Petersburg, Russia). Rotkin is an editor of 3 books and author of 190 papers and proceedings. Most recently, his work is focused on near-field optics and plasmonics, nano-biophysics, and 2D quantum materials. Rotkin mentored 30+ graduate students, 10+ postdoctoral fellows, 60+ undergraduates and a dozen of high-school students. Rotkin is recipient of several scientific awards, including Fellow of the Electrochemical Society, The Fulbright-Nehru Academic and Professional Excellence Award, The Japan Society for the Promotion of Science Fellowship, the Japan Gateway: Kyoto University Distinguished Professor, Hillman Award, Class of '68 Fellowship, Libsch Early Career Research Award, Feigl Junior Faculty Chair, and Beckman Fellowship

Hosted by: Lana Fulton,  lub18@psu.edu

Aerospace Engineering Seminar Series: TBA

Thursday, February 5, 2026; 3:00pm-4:00pm
ECoRE
Speaker: from

Hosted by: Jessica Chhan,  jmc7050@psu.edu

Engineering Design Strategies for Safe and Resilient Housing

Wednesday, February 4, 2026; 121 Earth & Engineering Science Building
3:35-4:25 p.m.
Speaker: Esther Obonyo from Global Building Network, Dept. of Nuclear Engineering

Dr. Esther Obonyo is a professor of Engineering Design and Architectural Engineering at Penn State. She is an affiliate faculty in the Colleges of Medicine, Arts and Architecture, and African Studies program. Between 2019 and 2024, she was the director of the Global Building Network, a partnership with the United Nations. Before joining Penn State, she was an Associate Professor at the University of Florida's (UF) Rinker School of Construction Management and a faculty entrepreneurship Fellow at UF’s Warrington College of Business. She has worked as an Engineer, Project Manager, and Innovations Analyst in Kenya, the UK, and the US. In her collaborative research, Dr Obonyo is developing integrated research methodologies for enhancing the building sector’s resilience to flood and heat-related disasters in a way that unlocks human and health benefits. Since 2008, she has led several NSF-funded projects in Florida, Pennsylvania in the US, Kenya, Tanzania, Uganda, Mozambique, Brazil, and Panama. Dr Obonyo worked with the USAID as a Senior policy advisor through being awarded a 2014/ 2015 US Department of State Jefferson Science Fellow. She is the lead PI for a Belmont Forum project on Climate, Environment and Health. This project builds on the findings of a recently concluded Belmont Forum project on Disaster Risk Reduction.

Hosted by: Lana Fulton,  lub18@psu.edu

Aerospace Engineering Seminar Series: TBA

Thursday, February 12, 2026; 3:00pm-4:00pm
ECoRE
Speaker: from

Hosted by: Jessica Chhan,  jmc7050@psu.edu

Threading the Innovation Chain: Scaling and Manufacturing Deep Tech in the United States

Wednesday, February 11, 2026; 121 Earth & Engineering Science Building
3:35-4:25 p.m.
Speaker: Melik Demirel from Engineering Science and Mechanics

Prof. Demirel, Lloyd and Dorothy Huck Chair in Biomimetic Materials, is a scientist and innovator (National Academy of Innovators-NAI member) with expertise in biotechnology, nanotechnology, and materials science. He also founded a climatech company for decarbonizing textiles (Tandem Repeat, Inc.) Over the last two decades, Professor Demirel and his research team have focused on developing functional nanoscale biomimetic materials. His team designed, fabricated, and synthesized advanced materials by studying the functional transitions of biomimetic systems, both computationally and experimentally. Prof. Demirel's achievements have been recognized, in part, through his receipt of a Young Investigator Award from the Department of Defense, an Alexander von Humboldt Fellowship, a Wyss Institute Visiting Scholar at Harvard University, an Institute for Complex Adaptive Matter Junior Fellowship, The Nicholas and Gelsa Pelick Biotechnology Innovation Award and the Pearce Development Professorship, and a Penn State Engineering Alumni Society Outstanding Research Award. Prof. Demirel received his PhD from Carnegie Mellon University, Pittsburgh, USA, and BS/MS degrees from Bogazici University, Istanbul, Turkey. Prof. Demirel is well known for his ground-breaking work on bioinspired programmable materials.

Hosted by: Lana Fulton,  lub18@psu.edu