Lively, Ryan P. - Georgia Institute of Technology - Department of Chemical and Biomolecular Engineering

个人简介

EDUCATION Ph.D. Chemical Engineering, Georgia Institute of Technology, 2011 B.S. Chemical & Biomolecular Engineering, Georgia Institute of Technology, 2006 BIO Ryan Lively was born in 1984. He spent approximately 16 years in Gainesville, FL and attended almost every home football game at The Swamp. He enrolled at Georgia Tech in 2002 as an eager Chemical Engineering student and has been a Yellow Jacket at heart ever since. During his studies at Georgia Tech, Ryan worked on research projects as diverse as ab initio quantum mechanical methods to estimate molecular binding energies, fresh Georgia peach preservation, composite spinneret design, dual-layer hollow fiber membrane spinning, and sorbent-loaded fiber spinning. Ryan introduced a rapid temperature swing adsorption (RTSA) approach for post-combustion CO2 capture, which was successfully demonstrated by adapting knowledge developed in membrane science to design unique nanoscale composite adsorbent/heat exchangers. After his Ph.D. (awarded in 2010), he spent almost 3 years as a post-doctoral research engineer at Algenol Biofuels, where he published 25 papers and filed two U.S. patent applications. His work at Algenol focused on developing energy-efficient liquid and vapor separation systems for downstream biofuel purification. His current research seeks to advance energy efficient fluid separation processes critical to the global energy infrastructure via application of materials design. In particular, his research group investigates fundamentals of adsorption and diffusion in hybrid polymeric and microporous materials to enable design of fiber-based separation devices. He is a recipient of a 2013 NSF BRIGE Award, a 2017 NSF CAREER Award, a 2017 3M Non-Tenured Faculty Award, the 2018 Kunesh Award from the AIChE Separations Division, and a 2018 DOE Early Career Award. He has over 80 publications in the field of separations including articles in Science, Nature, and Nature Materials.

研究领域

Our research group focuses on the creation of novel adsorbent and membrane materials that can provide low energy solutions to some of the world’s most challenging and important separations. Beyond making materials, we focus on developing these materials into scalable, modular devices that can be challenged with realistic feeds in our facilities or at collaborator’s facilities. Our ultimate objective is to translate enabling materials from the lab and into devices that can then be sent out into the field. Separating molecules is and always will be a hallmark of modern society – whether applied to conventional refining, biorefining, or futuristic “e-refining”, all of these systems (and many more) will rely upon advanced low energy, low carbon separation technologies that are waiting to be discovered.

近期论文

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Tuning the Structures of Metal–Organic Frameworks via a Mixed-Linker Strategy for Ethylene/Ethane Kinetic Separation Richelle Lyndon, Wenqin You, Yao Ma, John Bacsa, Yutao Gong, Eric E. Stangland, Krista S. Walton, David S. Sholl, and Ryan P. Lively*, Chem. Mater., 2020 Polymer genome–based prediction of gas permeabilities in polymers Guanghui Zhu, Chiho Kim, Anand Chandrasekarn, Joshua D. Everett, Rampi Ramprasad*, Ryan P. Lively*, Journal of Polymer Engineering, 2020 Controlling wettability, wet strength, and fluid transport selectivity of nanopaper with atomic layer deposited (ALD) sub-nanometer metal oxide coatings Yi Li, Lihua Chen, Jamie P. Wooding, Fengyi Zhang, Ryan P. Lively, Rampi Ramprasad and Mark D. Losego*, Nanoscale Adv., 2019 Relationship between ethane and ethylene diffusion inside ZIF-11 crystals confined in polymers to form mixed-matrix membranes Evan M. Forman, Amineh Baniani, Lei Fan, Kirk J. Ziegler, Erkang Zhou, Fengyi Zhang, Ryan P. Lively, Sergey Vasenkov*, J. Mem. Sci., 2019 Flux equations for osmotically-moderated sorption-diffusion transport in rigid microporous membranes Yao Ma, Fengyi Zhang, Harry W. Deckman, William J. Koros, Ryan P. Lively*, Ind. Eng. Chem. Res., 2019 Manufacturing Nanoporous Materials for Energy-Efficient Separations: Application and Challenges Yao Ma, Fengyi Zhang, Ryan P. Lively*, Sustainable Nanoscale Engineering, 2020 Separation and Purification of Furans from n-Butanol by Zeolitic Imidazole Frameworks: Multicomponent Adsorption Behavior and Simulated Moving Bed Process Design Yadong Chiang, Wanwen Liang, Shaowei Yang, Charles R. Bond, Wenqin You, Ryan P. Lively, Sankar Nair*, ACS Sustainable Chem. Eng.2019 Torlon® hollow fiber membranes for organic solvent reverse osmosis separation of complex aromatic hydrocarbon mixtures Hye‐Youn Jang, J. R. Johnson, Yao Ma, Ronita Mathias, Dhaval A. Bhandari, Ryan P. Lively*, AIChE J., 2019 Streamlined Fabrication of Asymmetric Carbon Molecular Sieve Hollow Fiber Membranes Melinda L. Jue, Yao Ma, Ryan P. Lively*, ACS Appl. Polym. Mater., 2019 A Guide to Solution‐based Additive Manufacturing of Polymeric Structures: Ink Design, Porosity Manipulation, and Printing Strategy Fengyi Zhang, Yao Ma, Yuzuki Kondo, Victor Breedveld, Ryan P. Lively*, Journal of advanced manufacturing and processing, 2019 Vapor Phase Infiltration of Metal Oxides into Nanoporous Polymers for Organic Solvent Separation Membranes Emily K. McGuinness†, Fengyi Zhang†, Yao Ma, Ryan P. Lively*, Mark D. Losego*, Chem. Mater., 2019 Creation of well‐defined “mid‐sized” micropores in carbon molecular sieve membranes Yao Ma, Melinda L Jue, Fengyi Zhang, Ronita Mathias, Hye Youn Jang, Ryan Lively*, Angew. Chem., 2019 Anomalous Relationship between Molecular Size and Diffusivity of Ethane and Ethylene inside Crystals of Zeolitic Imidazolate Framework-11 Amineh Baniani, Christian Chmelik, Evan M. Forman, Lei Fan, Erkang Zhou, Fengyi Zhang, Richelle Lyndon, Ryan P. Lively, Sergey Vasenkov*, J. Phys. Chem. C, 2019 Sorption and Transport of Vapors in ZIF-11: Adsorption, Diffusion, and Linker Flexibility Brian R. Pimente†, Melinda L. Jue†, Er-Kang Zhou, Ross J. Verploegh, Johannes Leisen, David S. Sholl, and Ryan P. Lively*, J. Phys. Chem. C, 2019 Analysis and utilization of cryogenic sorption isotherms for high free volume glassy polymers Matteo Minelli*, Brian R.Pimentel, Melinda L.Jue, Ryan P.Lively, Giulio C.Sarti, Polymer, 2019 Direct CO2 Capture from Air using Poly(ethylenimine)-Loaded Polymer/Silica Fiber Sorbents Achintya R. Sujan, Simon H. Pang, Guanghui Zhu, Christopher W. Jones*, and Ryan P. Lively*, ACS Sustainable Chem. Eng., 2019 Molecularly Mixed Composite Membranes for Advanced Separation Processes Guanghui Zhu, Fengyi Zhang, Matthew P. Rivera, Xunxiang Hu, Guoyan Zhang, Christopher W. Jones, Ryan P. Lively*, Angew. Chem., 2019 Stability of Zeolitic Imidazolate Frameworks in NO2 Souryadeep Bhattacharyya, Rebecca Han, Jayraj N. Joshi, Guanghui Zhu, Ryan P. Lively, Krista S. Walton , David S. Sholl* , and Sankar Nair*, J. Phys. Chem. C 2019 In Silico Prediction of Structural Properties of a Racemic Porous Organic Cage Crystal Yang Liu§, Guanghui Zhu§, Wenqin You, Hongjian Tang, Christopher W. Jones, Ryan P. Lively, and David S. Sholl*, J. Phys. Chem. C 2019