Professor Camille Petit

Wang J, Li Z, Park A-HA, Petit Cet al., 2015, Thermodynamic and kinetic studies of the MgCl₂-NH₄Cl-NH₃-H₂O system for the production of high purity MgO from calcined low-grade magnesite, AICHE JOURNAL, Vol: 61, Pages: 1933-1946, ISSN: 0001-1541

• Author Web Link
• Cite
• Citations: 12

Petit C, Gao M, Park AHA, 2015, Chemical and physical characterizations of liquid-like nanoparticle organic hybrid nanomaterials designed for CO2 capture and conversion, ACS Fall meeting 2015

• Cite

Petit C, 2015, Liquid-like Hybrid Sorbents for Carbon Capture: Investigation of CO2/Sorbent Interactions, Sorbent Viscosity and CO2 Diffusivity, GLS-12 International Conference

• Cite

Lin K-YA, Yang H, Petit C, Lee W-Det al., 2015, Magnetically controllable Pickering emulsion prepared by a reduced graphene oxide-iron oxide composite, JOURNAL OF COLLOID AND INTERFACE SCIENCE, Vol: 438, Pages: 296-305, ISSN: 0021-9797

• Author Web Link
• Cite
• Citations: 58

Park Y, Lin K-YA, Park A-HA, Petit Cet al., 2015, Recent advances in anhydrous solvents for CO₂ capture: ionic liquids, switchable solvents, and nanoparticle organic hybrid materials, FRONTIERS IN ENERGY RESEARCH, ISSN: 2296-598X

• Author Web Link
• Cite
• Citations: 32

Petit C, Bandosz TJ, 2014, Engineering the surface of a new class of adsorbents: metal–organic framework/graphite oxide composites, Journal of Colloid and Interface Science, Vol: 447, Pages: 139-151, ISSN: 1095-7103

• Open Access Link
• Cite

Petit C, Park A-HA, 2014, Novel liquid-like nanoparticle organic hybrid materials for CO₂ captrue and conversion, 248th National Meeting of the American-Chemical-Society (ACS), Publisher: AMER CHEMICAL SOC, ISSN: 0065-7727

• Author Web Link
• Cite

Lin K-YA, Yang H, Petit C, Hsu F-Ket al., 2014, Removing oil droplets from water using a copper-based metal organic frameworks, CHEMICAL ENGINEERING JOURNAL, Vol: 249, Pages: 293-301, ISSN: 1385-8947

• Author Web Link
• Cite
• Citations: 95

Petit C, Lin KYA, Park AHA, 2014, Viscosity and CO2 Diffusivity of Liquid-like NanoparticleOrganic Hybrid Materials determined using ATR FT-IR Spectroscopy, AIChE Fall meeting 2014

• Cite

Petit C, Park A-HA, 2014, Designing the next generation of CO₂ capture solvents: Nanoparticle organic hybrid materials (NOHMs), 247th National Spring Meeting of the American-Chemical-Society (ACS), Publisher: AMER CHEMICAL SOC, ISSN: 0065-7727

• Author Web Link
• Cite

Park Y, Petit C, Han P, Park A-HAet al., 2014, Effect of canopy structures and their steric interactions on CO₂ sorption behavior of liquid-like nanoparticle organic hybrid materials, RSC ADVANCES, Vol: 4, Pages: 8723-8726

• Author Web Link
• Cite
• Citations: 28

Lin K-YA, Park Y, Petit C, Park A-HAet al., 2014, Thermal stability, swelling behavior and CO₂ absorption properties of Nanoscale Ionic Materials (NIMs), RSC ADVANCES, Vol: 4, Pages: 65195-65204, ISSN: 2046-2069

• Author Web Link
• Cite
• Citations: 21

Petit C, Park AHA, 2013, Designing the next generation of CO2 capture solvents: Nanoparticle Organic Hybrid Materials, ACS Spring meeting 2014

• Cite

Petit C, Bhatnagar S, Park A-HA, 2013, Effect of water on the physical properties and carbon dioxide capture capacities of liquid-like Nanoparticle Organic Hybrid Materials and their corresponding polymers, Journal of Colloid and Interface Science, Vol: 407, Pages: 102-108, ISSN: 0021-9797

• Cite

Park A-HA, Petit C, 2013, Investigation of the tunable physical and chemical properties of novel solvents based on hybrid nanomaterials for CO₂ capture, 246th National Meeting of the American-Chemical-Society (ACS), Publisher: AMER CHEMICAL SOC, ISSN: 0065-7727

• Author Web Link
• Cite

Petit C, Park AHA, 2013, Tuning the Physical and Chemical Properties of Novel CO2 Capture Solvents Based On Hybrid Nanomaterials, AIChE Fall meeting 2013

• Cite

Lin K-YA, Petit C, Park A-HA, 2013, Effect of SO₂ on CO₂ Capture Using Liquid-like Nanoparticle Organic Hybrid Materials, ENERGY & FUELS, Vol: 27, Pages: 4167-4174, ISSN: 0887-0624

• Author Web Link
• Cite
• Citations: 41

Petit C, Lin K-YA, Park A-HA, 2013, Design and Characterization of Liquid-like POSS-based Hybrid Nanomaterials Synthesized via Ionic Bonding and Their Interactions with CO2, Langmuir, ISSN: 0743-7463

• Cite

Lin K-YA, Petit C, Park AHA, 2013, Effect of SO2 on CO2 capture using liquid-like Nanoparticle Organic Hybrid Materials, Energy and Fuels, Vol: 27, Pages: 4167-4174

• Cite

Park A-HA, Petit C, Park Y, Lin K-YAet al., 2013, Methods and systems for capturing carbon dioxide and producing a fuel using a solvent including a nanoparticle organic hybrid material and a secondary fluid, WO2013022894 A2

• Cite

Petit C, Park Y, Lin KA, Park AHAet al., 2012, Novel liquid-like nanoscale organic hybrid materials for CO2 capture

New solvents referred to as Nanoparticle Organic Hybrid Materials (NOHMs) are being developed for various energy and environmental applications, with a particular focus on CO2 capture. These nanoscale hybrid materials consist of an inorganic nanocore functionalized with a polymeric canopy, which acts as the solvating medium. Compared to the conventional amine-based solvents, NOHMs exhibit valuable properties such as negligible vapor pressure and high thermal stability. CO2 capture by NOHMs is expected to arise from two properties: the tunable chemistry of the canopy via selection of task-specific functional groups, as well as the specific structural arrangement of the polymer chains, favored by decreases in entropy. In this study, different NOHMs were synthesized and they were characterized using thermogravimetric analysis, spectroscopic tools (i.e., NMR, Raman, ATR FT-IR), and viscosity measurement techniques. The CO2 capture and CO2-induced swelling behaviors of NOHMs were evaluated and the mechanisms of CO2 absorption were investigated. The effects of the canopy structure (e.g., grafting density, polymer geometry), the canopy functionalization (e.g., presence of amine groups), and the presence of other flue gas components (e.g., N2, SO2, H2O) on the overall CO2 capture process were studied.

• Abstract
• Cite

Petit C, Ferguson T, Park AHA, 2012, Carbon negative production of hydrogen from biomass using an alkaline thermal treatment: Kinetic and mechanistic studies for the investigation of the reaction pathways

Using biomass as a feedstock in place of fossil fuels for the production of energy and fuels can represent a sustainable alternative since this energy source is renewable, carbon neutral, and globally distributed. In this study, the one-step H2 production from biomass using an alkaline hydroxide (i.e., NaOH) under mild reaction conditions (i.e., 373 - 573 K, 1 bar) was investigated using a model biomass system. This method has great potential since it enables the production of a high-purity H2 stream with increased yield. Moreover, it is carbon negative since the carbon in the biomass is converted to a solid, environmentally benign carbonate. Owing to the suppressed CO formation in this process, the produced gas can be directly used in subsequent energy conversion systems such as PEM fuel cells without additional gas cleanup steps. The formation of gaseous products (i.e., H2, CH4, CO and CO2) during the reaction was monitored using gas chromatography, and the characterization of the derived solid products was carried out using 13C NMR and Raman spectroscopies, while investigating the effect of the reaction conditions (i.e., final reaction temperature, reactants ratio). The findings of this study provided important information regarding the mechanistic pathways of the alkaline thermal treatment of biomass for sustainable energy conversion.

• Abstract
• Cite

Ferguson TE, Park Y, Petit C, Park A-HAet al., 2012, Novel Approach to Hydrogen Production with Suppressed CO<i>_x</i> Generation from a Model Biomass Feedstock, ENERGY & FUELS, Vol: 26, Pages: 4486-4496, ISSN: 0887-0624

• Author Web Link
• Cite
• Citations: 16

Ferguson TE, Park Y, Petit C, Park A-HAet al., 2012, Novel Approach to Hydrogen Production with Suppressed COx Generation from a Model Biomass Feedstock, Energy and Fuels, Vol: 26, Pages: 4486-4496

• Cite

Petit C, Levasseur B, Mendoza B, Bandosz TJet al., 2012, Reactive adsorption of acidic gases on MOF/graphite oxide composites, MICROPOROUS AND MESOPOROUS MATERIALS, Vol: 154, Pages: 107-112, ISSN: 1387-1811

• Author Web Link
• Cite
• Citations: 180

Petit C, 2012, Factors Affecting the Removal of Ammonia from Air on Carbonaceous Materials: Investigation of Reactive Adsorption Mechanism, Publisher: Springer, ISBN: 978-1-4614-3393-4

• Cite

Petit C, Park Y, Lin K-YA, Park A-HAet al., 2012, Spectroscopic Investigation of the Canopy Configurations in Nanoparticle Organic Hybrid Materials of Various Grafting Densities during CO₂ Capture, JOURNAL OF PHYSICAL CHEMISTRY C, Vol: 116, Pages: 516-525, ISSN: 1932-7447

• Author Web Link
• Cite
• Citations: 38

Petit C, Wrabetz S, Bandosz TJ, 2012, Microcalorimetric insight into the analysis of the reactive adsorption of ammonia on Cu-MOF and its composite with graphite oxide, Journal of Materials Chemistry, Vol: 22, Pages: 21443-21447, ISSN: 0959-9428

• Cite

Petit C, Bandosz TJ, 2012, Exploring the coordination chemistry of MOF–graphite oxide composites and their applications as adsorbents, Dalton Transactions, Vol: 41, Pages: 4027-4035, ISSN: 1477-9226

• Cite

Petit C, Park Y, Lin K-YA, Park A-HAet al., 2011, Spectroscopic Investigation of the Canopy Configurations in Nanoparticle Organic Hybrid Materials of Various Grafting Densities during CO2 Capture, Journal of Physical Chemistry C, Vol: 116, Pages: 516-525

• Cite