The IEEE Nanotechnology Council – North Jersey Chapter (CH01288, NANO42) is pleased to announce its Spring 2026 Invited Lecture Series, featuring distinguished speakers from leading institutions across North America and Europe. Spring 2026 Lecture Lineup (https://lnkd.in/eCxjb5SB): February 23, 2026 | 2:00–3:00 PM (EST) Interplays between structural chirality, CISS, and pure spin current transport in chiral matters by Prof. Dali Sun (Department of Physics, North Carolina State University) March 23, 2026 | 11:00 AM–12:00 PM (EST) Advanced Functional Nanocomposite Materials and Their Applications in High-Performance Physical/Chemical Sensing by Prof. Seonghwan Kim (Mechanical & Manufacturing Engineering, University of Calgary) April 23, 2026 | 10:00–11:00 AM (EST) Numerical Simulation of Transport in Large-Area Disordered Materials by Dr. Aron Cummings (Catalan Institute of Nanoscience and Nanotechnology (ICN2), CSIC & BIST, Barcelona, Spain) We warmly invite students and researchers interested in nanotechnology, spin transport, functional materials, and computational modeling to join us. Speaker(s): Dali Sun, Seonghwan Kim, Aron Cummings Agenda: Spring 2026 Lecture Lineup (https://lnkd.in/eCxjb5SB): February 23, 2026 | 2:00–3:00 PM (EST) Interplays between structural chirality, CISS, and pure spin current transport in chiral matters by Prof. Dali Sun (Department of Physics, North Carolina State University) March 23, 2026 | 11:00 AM–12:00 PM (EST) Advanced Functional Nanocomposite Materials and Their Applications in High-Performance Physical/Chemical Sensing by Prof. Seonghwan Kim (Mechanical & Manufacturing Engineering, University of Calgary) April 23, 2026 | 10:00–11:00 AM (EST) Numerical Simulation of Transport in Large-Area Disordered Materials by Dr. Aron Cummings (Catalan Institute of Nanoscience and Nanotechnology (ICN2), CSIC & BIST, Barcelona, Spain) Virtual: https://events.vtools.ieee.org/m/539153

The Innovation Sprint for Women Engineers is a month long hackathon designed to inspire, mentor, and empower women in technology to develop creative, feasible, and socially impactful solutions addressing the United Nations Sustainable Development Goals (SDGs) through the synergy of Artificial Intelligence (AI) and Nanotechnology. The sprint will cultivate innovation, cross-disciplinary collaboration, and leadership among women engineers and students. Objectives - To promote innovation and sustainability awareness among women engineers. - To foster collaboration between AI and nanotech domains for practical SDG-aligned solutions. - To encourage women’s participation in STEM innovation through mentorship and networking. - To identify promising ideas for potential IEEE WIE publications, grants, or incubator follow-ups. Theme AI + Nanotech = Sustainable Futures Participants will ideate solutions under sub-themes such as: - Clean Water & Energy (SDG 6 & 7) - Health and Biosensing (SDG 3) - Sustainable Cities & Environments (SDG 11 & 13) - Circular Economy and Waste Reduction Expected Outcomes - Innovation recognition: Top projects highlighted on IEEE Nanotechnology platforms. - Community engagement: Strengthened cross-disciplinary collaboration. - Talent pipeline: Encouraging women’s visibility in STEM innovation. - Sustainability impact: Solutions aligned with real-world SDG metrics. Recognition & Certificates - Top 3 Winners will receive special IEEE Nanotechnology x Young Professionals Innovation Sprint Acknowledgemen and Certifcates Co-sponsored by: North Jersey Nano Technology Council Virtual: https://events.vtools.ieee.org/m/541140

Advanced Functional Nanocomposite Materials and their Applications in High-Performance Physical/Chemical Sensing Prof. Seonghwan (Sam) Kim []Mechanical and Manufacturing Engineering, University of Calgary Zoom link: https://stevens.zoom.us/j/95511857241?from=addon Abstract: Extensive engineering nanomaterials and their composites have been synthesized and introduced over the last two decades for various applications. Among them, metal-organic frameworks (MOFs), one-, two-, or three-dimensional crystalline structure materials consisting of metal cluster nodes and organic linkers, have attracted much attention due to their highly ordered nature, tunable pore volume, ultrahigh porosity, and the ability to tailor the frameworks’ chemical functionality by modifying the organic ligands. Over the last eight years, my research group has developed multiple MOFs and nanocomposite materials for physical and chemical sensing applications. Here, I will first introduce rapid and facile synthesis of MOFs and their composites on top of various sensing devices for gas/vapor sensing. In addition, chemical sensors based on colorimetric and fluorescent MOFs and other nanomaterials will be presented as cheap and rapid sensing platforms for the detection of trace amount of explosives, chemical warfare agents, and toxic ions in water. Lastly, MOF reinforced, high performance hydrogel or organohydrogel will be introduced and their applications as self-powered wearable strain/pressure sensors and triboelectric nanogenerators will be presented. Keywords: Engineered nanomaterials, Nanocomposites, Physical Sensor, Chemical Sensor Virtual: https://events.vtools.ieee.org/m/549702