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X-WR-CALDESC:Events for Department of Chemical Engineering
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DTSTART;TZID=America/New_York:20211006T170000
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DTSTAMP:20260414T031948
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SUMMARY:Showcase of Opportunities for Undergraduate Research and Creative Endeavor (SOURCE)
DESCRIPTION:Calling all Huskies! Learn more about what cutting-edge research and creative endeavor look like at Northeastern. This is your chance to talk one-on-one with faculty from across the colleges about their research – and how you can get involved in projects during your time at Northeastern. Not everyone will have open positions right now but you’ll get a chance to see the range of work that’s happening and begin to make connections that you can build for the rest of your time at Northeastern. \nBefore you attend\, here’s some advice to consider. \n\nTake a look and see who’ll be there. We have an online database of attendees. Go through it and learn more about the project areas and visit the researcher/creative practitioner web pages. This will help prepare you for a conversation and help you ask any questions you might have.\nGet ready for a conversation from your end. Think about goals you have \, as well as your current interests and skills and those that you want to develop. How does what you have read about the various projects align with what you know about yourself and your interests? Take a minute to practice a simple declarative sentence\, “My name is ____________. I study ____________. I think that this part of your work ____________ is interesting because of this intellectual reason/moral imperative/grand impact ____________.  I’d love to learn more about it because of this previous experience ____________ and these skills ____________ and my long-term interest in ____________.  How I can get involved?” You might not know how to fill in all of the blanks right now (that’s why you’re in school) but see how close you can get.  When you know who you are\, what you value\, and how you can contribute — and get some practice saying it out loud– being confident becomes easier.\nRemember\, not every faculty member will have open positions now — but a good impression lasts a long time. You can’t go wrong with being polite and courteous.   Address faculty members as Professor until told otherwise (better to err on the side of formality).\nKeep in mind your time! If you want to be involved in research or creative practice\, a good thing to keep in mind is that faculty members will commit a lot of time to training and mentoring their undergraduates. They’re investing time\, energy\, and expertise in their mentees and want to know that you will make time for the projects\, show up consistently\, and ideally be with them for longer than a semester if possible. The learning curve of most projects is steep and it takes some time to get to the meatiest parts of the work. Be honest with yourself about the commitment you can make\, be frank with your faculty mentors\, and stick to your word. Communication and honesty in relationships\, including the mentoring relationship\, is key.\n\nSOURCE is a collaboration between Bouvé College of Health Sciences; College of Arts\, Media and Design; College of Engineering; College of Science; College of Social Sciences and Humanities; D’Amore-McKim School of Business; and Khoury College of Computer Science. It is coordinated by Undergraduate Research and Fellowships on behalf of the Office of the Chancellor.
URL:https://che.northeastern.edu/event/showcase-of-opportunities-for-undergraduate-research-and-creative-endeavor/
LOCATION:Curry Student Center\, 360 Huntington Ave.\, Boston\, MA\, 02115\, United States
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BEGIN:VEVENT
DTSTART;TZID=America/New_York:20211013T120000
DTEND;TZID=America/New_York:20211013T130000
DTSTAMP:20260414T031948
CREATED:20211007T175033Z
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SUMMARY:ChE Seminar Series: Chemo-mechanics and solid-state batteries
DESCRIPTION:ChE Seminar Series Presents: \nDr. Kelsey Hatzell\, Ph.D \nAssistant Professor in the Andlinger Center for Energy and Environment \nAssistant Professor of Mechanical and Aerospace Engineering \nPrinceton University \nChemo-mechanic and solid-state batteries \nAbstract: Transportation accounts for 23% of energy-related carbon dioxide emissions and electrification is a pathway toward ameliorating these growing challenges.  All solid-state batteries could potentially address the safety and driving range requirements necessary for widespread adoption of electric vehicles. However\, the power densities of all-solid-state batteries are limited because of ineffective ion transport at solid|solid interfaces. New insight into the governing physics that occur at intrinsic and extrinsic interfaces are critical for developing engineering strategies for the next generation of energy-dense batteries. However\, buried solid|solid interfaces are notoriously difficult to observe with traditional bench-top and lab-scale experiments. In this talk\, I discuss opportunities for tracking phenomena and mechanisms in all solid-state batteries in-situ using advanced synchrotron techniques. Synchrotron techniques that combine reciprocal and real space techniques are capable of tracking multi-scale structural phenomena from the nano- to meso-scale. This talk will discuss the role microstructure plays on transport and interfacial properties that govern adhesion. Quantification of salient descriptors of structure in solid-state batteries is critical for understanding the mechanochemical nature of all solid-state batteries. \nBiography: Dr. Hatzell is an assistant professor at Princeton university in the Andlinger Center for Energy and Environment and department of Mechanical and aerospace engineering. Hatzell’s group primarily work on energy storage and is particularly interested at using non-equilibrium x-ray techniques to probe batteries during operando experimentation. \nDr. Hatzell earned her Ph.D. in Material Science and Engineering at Drexel University\, her M.S. in Mechanical Engineering from Pennsylvania State University\, and her B.S./B.A. in Engineering/Economics from Swarthmore College. Hatzell’s research group works on understanding phenomena at solid|liquid and solid|solid interfaces and works broadly i9n energy storage and conversion. Hatzell is the recipient of several awards including the ORAU Powe Junior Faculty Award (2017)\, NSF CAREER Award (2019)\, ECS Toyota Young Investigator Award (2019)\, finalist for the BASF/Volkswagen Science in Electrochemistry Award (2019)\, the Ralph “Buck” Robinson award from MRS (2019)\, Sloan Fellowship in Chemistry (2020)\, and POLiS Award of Excellence for Female Researchers (2021). \nPlease contact a.ramsey@northeastern.edu for the seminar link. \n  \n 
URL:https://che.northeastern.edu/event/che-seminar-series-chemo-mechanics-and-solid-state-batteries/
LOCATION:108 SN
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BEGIN:VEVENT
DTSTART;TZID=America/New_York:20211020T120000
DTEND;TZID=America/New_York:20211020T130000
DTSTAMP:20260414T031948
CREATED:20211019T184128Z
LAST-MODIFIED:20211019T184128Z
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SUMMARY:ChE Seminar Series: Towards Sustainable Energy and Materials: Carbon Capture\, Utilization and Storage
DESCRIPTION:ChE Seminar Series Presents: \nDr. A.-H. Alissa Park\, Ph.D \nLenfest Earth Institute Professor of Climate Change\nDepartment of Earth and Environmental Engineering & Department of Chemical Engineering\nDirector of the Lenfest Center for Sustainable Energy\,\nColumbia University \nTowards Sustainable Energy and Materials: Carbon Capture\, Utilization and Storage  \nAbstract: \nIn order to meet the ever-increasing global energy demands while stabilizing the atmospheric CO2 level\, the development of carbon capture\, utilization and storage (CCUS) technologies is one of the critical needs. In particular\, there has been significant efforts to develop CO2 capture solvents and some (e.g.\, amine-based aqueous solvents) have shown very promising results. Unfortunately\, the energy requirement for the current aqueous solvent systems is still considered to be too high. Thus\, efforts have been focused on the development of second and third-generation CO2 capture solvents which are often water-free. Nanoparticle Organic Hybrid Materials (NOHMs) are a new class of organic-inorganic hybrids that consist of a hard nanoparticle core functionalized with a molecular organic corona that possesses a high degree of chemical and physical tunability. It has recently been discovered that NOHMs have interesting electrolyte properties which may allow the CO2 capture to be pulled by the in-situ CO2 conversion reactions. The development of these unique nanoscale hybrid materials will not only advance CO2 capture materials design but also introduce unique research opportunities in various energy and environmental fields. This seminar will discuss the challenges and opportunities of different CO2 capture and conversion pathways including Negative Emission Technologies (e.g.\, Direct Air Capture) that can allow the development of circular carbon and hydrogen economy using renewable energy. \nBio: \nAh-Hyung (Alissa) Park is the Lenfest Earth Institute Professor of Climate Change in the Departments of Earth and Environmental Engineering & Chemical Engineering at Columbia University. She is also the Director of the Lenfest Center for Sustainable Energy. Her research focuses on sustainable energy and materials conversion pathways with emphasis on integrated Carbon Capture\, Utilization and Storage (CCUS) technologies addressing climate change. Park group is also working on Direct Air Capture of CO2 and Negative Emission Technologies including BioEnergy with Carbon Capture and Storage (BECCS) and sustainable construction materials with low carbon intensity. Park received a number of professional awards and honors including the U.S. C3E Research Award (2018)\, PSRI Lectureship Award in Fluidization at AIChE (2018)\, ACS Energy and Fuels Division – Emerging Researcher Award (2018)\, ACS WCC Rising Star Award (2017)\, and the National Science Foundation CAREER Award (2009). Park also led a number of global and national discussions on CCUS including the Mission Innovation Workshop on Carbon Capture\, Utilization and Storage in 2017 and the National Petroleum Council CCUS Report in 2019. She is an elected Fellow of AIChE\, AAAS\, ACS\, and RSC. \n  \nPlease contact a.ramsey@northeastern.edu for the remote seminar link.
URL:https://che.northeastern.edu/event/che-seminar-series-towards-sustainable-energy-and-materials-carbon-capture-utilization-and-storage/
LOCATION:108 SN
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BEGIN:VEVENT
DTSTART;TZID=America/New_York:20211027T120000
DTEND;TZID=America/New_York:20211027T130000
DTSTAMP:20260414T031948
CREATED:20211020T175119Z
LAST-MODIFIED:20211020T175119Z
UID:3841-1635336000-1635339600@che.northeastern.edu
SUMMARY:ChE Seminar Series: Engineering directed Transport and Collective Dynamics of Charged Colloids under Electric Fields
DESCRIPTION:ChE Seminar Series Presents: \nDr. Carlos A. Silvera Batista \nDepartment of Chemical & Biomolecular Engineering \nVanderbilt University \nEngineering directed Transport and Collective Dynamics of Charged Colloids under Electric Fields \nAbstract: \nGradients in electrical potential (electric fields)\, along with gradients in concentration of ionic species\, are a principal way to control the motion of colloids. The surface and body forces that electric fields exert on anisotropic colloids have opened new applications in self-propulsion\, transport of cargo\, dynamic assembly\, and directed assembly. This talk focuses on the long-range transport of charged colloids\, as well as on the dynamic assembly of anisotropic and active colloids. In the first part\, we present a study of the dynamics of charged colloids under direct currents and gradients of chemical species (electrodiffusiophoresis). In our approach\, we developed a method to simultaneously visualize the progression of concentration polarization and the ensuing dynamics of charged colloids near electrodes. With the aid of confocal microscopy\, we show that the passage of current through water induce the focusing and aggregation of charged colloids away from both electrodes. Preliminary experiments show that this phenomenon can potentially be useful to perform focusing\, trapping and separation operations in lab-on-a-chip devices. In the second part\, we discuss strategies to tailor the propulsion and collective dynamics of Janus particles (JPs) under electric fields. We engineer the relaxation time of JPs by controlling the properties of the medium and the particles. The insights from this study provide helpful quantitative information for the design of colloidal machines with targeted propulsion\, interparticle interactions and collective dynamics. In addition\, our results provide the experimental basis for the design of non-equilibrium strategies for materials fabrication. \nBio: \nDr. Carlos A. Silvera Batista initiated undergraduate studies in chemical engineering at the Universidad de San Buenaventura (Cartagena\, Colombia) and subsequently obtained a bachelor’s degree from the City College of New York (CCNY). Dr. Silvera began his research trajectory as an LSAMP scholar under the guidance of Prof. Ilona Kretzschmar (CCNY). After earning a PhD in chemical engineering from the University of Florida\, Dr. Silvera held postdoctoral positions at the National Institute of Standards and Technology and at the University of Michigan\, where he received the President’s Postdoctoral Fellowship. Currently\, as an assistant professor at Vanderbilt University\, his research interest is on the electrokinetics and directed assembly of colloidal systems.  His research work has resulted in over 20 peer-reviewed publications in high-impact scientific journals\, such as JACS\, ACS Nano\, Langmuir and Science. \n 
URL:https://che.northeastern.edu/event/che-seminar-series-engineering-directed-transport-and-collective-dynamics-of-charged-colloids-under-electric-fields/
LOCATION:108 SN
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BEGIN:VEVENT
DTSTART;TZID=America/New_York:20211027T140000
DTEND;TZID=America/New_York:20211027T150000
DTSTAMP:20260414T031948
CREATED:20211021T174450Z
LAST-MODIFIED:20211021T174450Z
UID:3843-1635343200-1635346800@che.northeastern.edu
SUMMARY:LEADERs Event: AI Challenges in the Deployment of Advanced Driver-Assistance Systems
DESCRIPTION:This presentation will help attendees learn about integrating AI in auto industry. While AI has been able to achieve remarkable success over the last 10 years\, can it really be trusted?  What does trustworthy AI look like in the context of connected vehicles and advanced driver-assistance systems (ADAS)?  To create an ADAS for all\, it’s paramount that the AI systems in the vehicle be trusted and work for everyone.  This is especially important given the nature of ADAS as a safety-critical\, cyber-physical\, and people-centric system of systems.  In this talk\, the presenter will outline a number of challenges in building AI systems which could potentially be deployed in future ADAS. \nSpeaker Dr. Jacob Bond leads trustworthy AI research at General Motors R&D.  In addition to his work on ensuring AI systems in the vehicle can be trusted\, his research looks at how to keep AI systems private and how to ensure cloud and vehicle systems can establish secure communications.  After receiving a Ph.D. in computational mathematics and cryptography from Purdue University\, he joined General Motors’ Product Cybersecurity organization\, focusing on applications of public-key cryptography.  Jacob then began investigating the security of AI systems\, moving to GM R&D and expanding his work to encompass the trustworthiness of AI systems.
URL:https://che.northeastern.edu/event/leaders-event-ai-challenges-in-the-deployment-of-advanced-driver-assistance-systems/
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