Roman Voronov
Associate Professor, Chemical & Materials Engineering
378 Tiernan Hall
About Me
Prof. Voronov has been at NJIT since 2013. Prior to this appointment, he was a American Heart Association Postdoctoral Fellow in the Department of Chemical & Biomolecular Engineering at the University of Pennsylvania under the guidance of Prof. Scott Diamond.
Education
Ph.D.; University of Oklahoma; Chemical Engineering; 2010
M.S.; University of Oklahoma; ; 2006
B.S.; University of Oklahoma; Chemical Engineering; 2003
M.S.; University of Oklahoma; ; 2006
B.S.; University of Oklahoma; Chemical Engineering; 2003
Website
2021 Fall Courses
CHE 790A - DOCT DISSERTATION & RES
CHE 365 - CHEMICAL ENGR COMPUTING
CHE 365 - CHEMICAL ENGR COMPUTING
Teaching Interests
Prof. Voronov is a nationally recognized educator with teaching interests in Transport Phenomena and Computing in Chemical Engineering (ChE). He serves on the Department of Chemical and Materials Engineering's Undergraduate Curriculum Committee. Roman was among just 20 young faculty across the U.S. to be invited to present at the CACHE 50th Anniversary Conference on the Future of Cyber-assisted ChE Education: http://cache50th.org/?page=youngfaculty
Additionally, he is a recipient of the National Science Foundation's “Engineering In Practice Fellowship”, and a graduate of the National Effective Teaching Institute (NETI-1). Among his accomplishments was leading the first survey of the U.S. chemical engineering curriculum in the past 60 years:
R.S. Voronov, S. Basuray, G. Obuskovic, L. Simon, R.B. Barat, and E.A. Bilgili, 2017. “Statistical analysis of undergraduate chemical engineering curricula of United States of America universities: Trends and observations”. Education for Chemical Engineers*, 20, 1-10.
http://dx.doi.org/10.1016/j.ece.2017.04.002
Additionally, he is a recipient of the National Science Foundation's “Engineering In Practice Fellowship”, and a graduate of the National Effective Teaching Institute (NETI-1). Among his accomplishments was leading the first survey of the U.S. chemical engineering curriculum in the past 60 years:
R.S. Voronov, S. Basuray, G. Obuskovic, L. Simon, R.B. Barat, and E.A. Bilgili, 2017. “Statistical analysis of undergraduate chemical engineering curricula of United States of America universities: Trends and observations”. Education for Chemical Engineers*, 20, 1-10.
http://dx.doi.org/10.1016/j.ece.2017.04.002
Past Courses
CHE 365: CHEMICAL ENGR COMPUTING
CHE 365: TECH PROCESS SIMULATION
CHE 370: HEAT AND MASS TRANSFER
CHE 624: TRANSPORT PHENOMENA
CHE 791: GRADUATE SEMINAR
CHE 365: TECH PROCESS SIMULATION
CHE 370: HEAT AND MASS TRANSFER
CHE 624: TRANSPORT PHENOMENA
CHE 791: GRADUATE SEMINAR
Research Interests
3D Bioprinting
Bioengineering
Biomanufacturing
Blood
Microfluidics
Microscopy
Simulation
Bioengineering
Biomanufacturing
Blood
Microfluidics
Microscopy
Simulation
Other
An Introductory Overview of Image-Based Computational Modeling in Personalized Cardiovascular Medicine
Frontiers in Bioengineering and Biotechnology, September 2020
Review of fluid slip over superhydrophobic surfaces and its dependence on the contact angle
Industrial and Engineering Chemistry Research, April (2nd Quarter/Spring) 2008
Frontiers in Bioengineering and Biotechnology, September 2020
Review of fluid slip over superhydrophobic surfaces and its dependence on the contact angle
Industrial and Engineering Chemistry Research, April (2nd Quarter/Spring) 2008
Journal Article
Bara, J.E. , & Versypt, A.N.F. , & Getman, R.B. , & Kieslich, C.A., & Voronov, Roman (2020). Apps for Chemical Engineering Education: Off the Shelf and Do It Yourself Development Options. Chemical Engineering Education, 54(3/ Special Edition for the CACHE 50th Anniversary), 137-142.
Tong, Anh, & Pham, Quang, & Shah, Vatsal, & Naik, Akshay, & Abatemarco, Paul, & Voronov, Roman (2020). Automated Addressable Microfluidic Device for Minimally Disruptive Manipulation of Cells and Fluids within Living Cultures. ACS Biomaterials Science and Engineering, 6(3), 1809-1820.
Kadri, Olufemi, & Surblyte, Migle, & Chandran, Vishnu, & Voronov, Roman (2019). Is the endothelial cell responsible for the thrombus core and shell architecture?. Medical Hypotheses, 129,
Nguyen, Thanh, & Kadri, Olufemi, & Sikavitsas, Vassilios, & Voronov, Roman (2019). Scaffolds with a high surface area-to-volume ratio and cultured under fast flow perfusion result in optimal O2 delivery to the cells in artificial bone tissues. Applied Sciences (Switzerland), 9(11),
Pham, Quang, & Tong, Anh, & Rodrigues, Lydia, & Zhao, Yang, & Surblyte, Migle, & Ramos, Diomar, & Brito, John, & Rahematpura, Adwik, & Voronov, Roman (2019). Ranking migration cue contributions to guiding individual fibroblasts faced with a directional decision in simple microfluidic bifurcations. Integrative biology : quantitative biosciences from nano to macro, 11(5), 208-220.
Tong, Anh, & Pham, Quang, & Shah, Vatsal, & Naik, Akshay, & Abatemarco, Paul, & Voronov, Roman (2020). Automated Addressable Microfluidic Device for Minimally Disruptive Manipulation of Cells and Fluids within Living Cultures. ACS Biomaterials Science and Engineering, 6(3), 1809-1820.
Kadri, Olufemi, & Surblyte, Migle, & Chandran, Vishnu, & Voronov, Roman (2019). Is the endothelial cell responsible for the thrombus core and shell architecture?. Medical Hypotheses, 129,
Nguyen, Thanh, & Kadri, Olufemi, & Sikavitsas, Vassilios, & Voronov, Roman (2019). Scaffolds with a high surface area-to-volume ratio and cultured under fast flow perfusion result in optimal O
Pham, Quang, & Tong, Anh, & Rodrigues, Lydia, & Zhao, Yang, & Surblyte, Migle, & Ramos, Diomar, & Brito, John, & Rahematpura, Adwik, & Voronov, Roman (2019). Ranking migration cue contributions to guiding individual fibroblasts faced with a directional decision in simple microfluidic bifurcations. Integrative biology : quantitative biosciences from nano to macro, 11(5), 208-220.
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Chapter
Nguyen, Thanh, & Kadri, Olufemi, & Sikavitsas, Vassilios, & Voronov, Roman (2020). Scaffolds with a high surface area-to-volume ratio and cultured under fast flow perfusion result in optimal O2 delivery to the cells in artificial bone tissues, Applied Sciences (Switzerland). (pp. 5-18). Applied Sciences (Switzerland)
Papavassiliou, Dimitrios, & Pham, Ngoc , & Kadri, Olufemi, & Voronov, Roman (2017). Numerical Methods and Advanced Simulation in Biomechanics and Biological Processes: Ch 23 - Lattice Boltzmann Methods for Bioengineering Applications, Miguel Cerrolaza Sandra Shefelbine Diego Garzón-Alvarado (Eds.), Elsevier. (pp. 415-429). Elsevier
Papavassiliou, Dimitrios, & Pham, Ngoc , & Kadri, Olufemi, & Voronov, Roman (2017). Numerical Methods and Advanced Simulation in Biomechanics and Biological Processes: Ch 23 - Lattice Boltzmann Methods for Bioengineering Applications, Miguel Cerrolaza Sandra Shefelbine Diego Garzón-Alvarado (Eds.), Elsevier. (pp. 415-429). Elsevier
Professional
Cellular and Molecular Bioengineering
Reviewer, Journal Article, 2020
NIH Hemostasis and Thrombosis Study Section
Reviewer, Grant Proposal, 2019
Scientific Reports
Reviewer, Journal Article, 2019
Annals of Bioengineering
Reviewer, Journal Article, 2019
Tissue Engineering
Reviewer, Journal Article, 2015
Tissue Engineering
Reviewer, Journal Article, 2015
Langmuir
Reviewer, Journal Article, 2014
Chemical Engineering Education
Reviewer, Journal Article, 2013
Reviewer, Journal Article, 2020
NIH Hemostasis and Thrombosis Study Section
Reviewer, Grant Proposal, 2019
Scientific Reports
Reviewer, Journal Article, 2019
Annals of Bioengineering
Reviewer, Journal Article, 2019
Tissue Engineering
Reviewer, Journal Article, 2015
Tissue Engineering
Reviewer, Journal Article, 2015
Langmuir
Reviewer, Journal Article, 2014
Chemical Engineering Education
Reviewer, Journal Article, 2013