Kerri Lee Chintersingh
Kerri Lee Chintersingh
Assistant Professor, Chemical & Materials Engineering
376 Tiernan Hall (TIER)
About Me
Kerri-lee Chintersingh is an Asst. Professor and a member of the Diversity, Equity and Inclusion Committee in the Otto H York Department of Chemical and Materials Engineering. Her research interests are in energetic materials, catalysts, and tuning materials surface and morphology for reactions and consolidation. She is also interested in the use of artificial intelligence/ machine learning for anomaly detection and data mining and understanding materials reactions in extreme environments. She completed her postdoctoral training within the Hopkins Extreme Materials Institute at Johns Hopkins University and is a past alum at NJIT and the University of Technology, Jamaica. Kerri also served as a Process Control Engineer.
Education
Ph.D.; New Jersey Institute of Technology; Chemical Engineering; 2019
B.Eng.; University of Technology Jamaica; Chemical Engineering; 2013
B.Eng.; University of Technology Jamaica; Chemical Engineering; 2013
Office Hours
9am-6 pm (Mondays- Fridays)
Teaching Interests
Kinetics, Thermodynamics, Electronic, Optical and Thermal Properties of Materials, Advances in Metals and Alloying, Fundamentals of Engineering Design, Combustion
Past Courses
CHE 702: SELECTED TOPICS IN CHEMICAL ENGINEERING II
CHE 721: COMBUSTION REACTION ENGINEERING
CHE 791: GRADUATE SEMINAR
FED 101: FUNDAMENTALS OF ENGINEERING DESIGN
CHE 721: COMBUSTION REACTION ENGINEERING
CHE 791: GRADUATE SEMINAR
FED 101: FUNDAMENTALS OF ENGINEERING DESIGN
Research Interests
Energetic Materials, Catalysts, Surface Reactions and Phenomena, Extreme Environments
Journal Article
Schoenitz, Mirko, & Chintersingh, Kerri Lee, & Dreyzin, Edward L. (2023). Process-property correlations for spherical composite Al\textperiodcentered Ti powders prepared by emulsion-assisted milling. Powder Technology, 428, 118806.
Chintersingh, Kerri Lee, & Schoenitz, Mirko, & Dreyzin, Edward L. (2021). Effect of Purity, Surface Modification and Iron Coating on Ignition and Combustion of Boron in Air. Combustion Science and Technology, 193(9), 1567--1586.
Chintersingh, Kerri Lee, & Schoenitz, Mirko, & Dreyzin, Edward L. (2021). Transition metal catalysts for boron combustion. Combustion Science and Technology, 193(8), 1400--1424.
Wainwright, Elliot R., & Inouye, Monica, & Niu, Michelle, & Chintersingh, Kerri Lee, & Weihs, Timothy P. (2021). Comparing the ignition and combustion characteristics of ball-milled Al-based composites with Ti, Zr, and Mg additives. Journal of Energetic Materials,
Chintersingh, Kerri Lee, & Sun, Yalun, & Schoenitz, Mirko, & Dreyzin, Edward L. (2019). Heterogeneous reaction kinetics for oxidation and combustion of boron. Thermochimica Acta, 682,
Chintersingh, Kerri Lee, & Schoenitz, Mirko, & Dreyzin, Edward L. (2021). Effect of Purity, Surface Modification and Iron Coating on Ignition and Combustion of Boron in Air. Combustion Science and Technology, 193(9), 1567--1586.
Chintersingh, Kerri Lee, & Schoenitz, Mirko, & Dreyzin, Edward L. (2021). Transition metal catalysts for boron combustion. Combustion Science and Technology, 193(8), 1400--1424.
Wainwright, Elliot R., & Inouye, Monica, & Niu, Michelle, & Chintersingh, Kerri Lee, & Weihs, Timothy P. (2021). Comparing the ignition and combustion characteristics of ball-milled Al-based composites with Ti, Zr, and Mg additives. Journal of Energetic Materials,
Chintersingh, Kerri Lee, & Sun, Yalun, & Schoenitz, Mirko, & Dreyzin, Edward L. (2019). Heterogeneous reaction kinetics for oxidation and combustion of boron. Thermochimica Acta, 682,
SHOW MORE
Sun, Yalun, & Chintersingh, Kerri Lee, & Schoenitz, Mirko, & Dreyzin, Edward L. (2019). Reactive Shell Model for Boron Oxidation. Journal of Physical Chemistry C, 123(18), 11807-11813.
Chintersingh, Kerri Lee, & Schoenitz, Mirko, & Dreyzin, Edward L. (2019). Boron doped with iron: Preparation and combustion in air. Combustion and Flame, 200, 286-295.
Chintersingh, Kerri Lee, & Schoenitz, Mirko, & Dreyzin, Edward L. (2018). Combustion of boron and boron–iron composite particles in different oxidizers. Combustion and Flame, 192, 44-58.
Liu, Xuan, & Chintersingh, Kerri Lee, & Schoenitz, Mirko, & Dreyzin, Edward L. (2018). Reactive composite boron - Magnesium powders prepared by mechanical milling. Journal of Propulsion and Power, 34(3), 787-794.
Chintersingh, Kerri Lee, & Schoenitz, Mirko, & Dreyzin, Edward L. (2016). Oxidation kinetics and combustion of boron particles with modified surface. Combustion and Flame, 173, 288-295.
Chintersingh, Kerri Lee, & Nguyen, Quang, & Schoenitz, Mirko, & Dreyzin, Edward L. (2016). Combustion of boron particles in products of an air–acetylene flame. Combustion and Flame, 172, 194-205.
Chintersingh, Kerri Lee, & Schoenitz, Mirko, & Dreyzin, Edward L. (2019). Boron doped with iron: Preparation and combustion in air. Combustion and Flame, 200, 286-295.
Chintersingh, Kerri Lee, & Schoenitz, Mirko, & Dreyzin, Edward L. (2018). Combustion of boron and boron–iron composite particles in different oxidizers. Combustion and Flame, 192, 44-58.
Liu, Xuan, & Chintersingh, Kerri Lee, & Schoenitz, Mirko, & Dreyzin, Edward L. (2018). Reactive composite boron - Magnesium powders prepared by mechanical milling. Journal of Propulsion and Power, 34(3), 787-794.
Chintersingh, Kerri Lee, & Schoenitz, Mirko, & Dreyzin, Edward L. (2016). Oxidation kinetics and combustion of boron particles with modified surface. Combustion and Flame, 173, 288-295.
Chintersingh, Kerri Lee, & Nguyen, Quang, & Schoenitz, Mirko, & Dreyzin, Edward L. (2016). Combustion of boron particles in products of an air–acetylene flame. Combustion and Flame, 172, 194-205.
COLLAPSE
Conference Proceeding
Quantitative Characterization of Metallic Composite Particle Combustion using X- ray Phase Contrast Imaging and Machine Learning
Bulletin of the American Physical Society , March 2022
Combustion of boron in products of an air-acetylene pre-mixed flame
January (1st Quarter/Winter) 2016
Composite B·Mg powders prepared by mechanical milling
January (1st Quarter/Winter) 2016
Bulletin of the American Physical Society , March 2022
Combustion of boron in products of an air-acetylene pre-mixed flame
January (1st Quarter/Winter) 2016
Composite B·Mg powders prepared by mechanical milling
January (1st Quarter/Winter) 2016
Other
Improving boron for combustion applications
ProQuest Dissertations Publishing , 2019
ProQuest Dissertations Publishing , 2019