# | Document title | Authors | Year | Source | Cited by |
1 | Fractionation of semicrystalline polymers by crystallization analysis fractionation and temperature rising elution fractionation | Anantawaraskul S., Anantawaraskul S., Soares J.B.P., Wood-Adams P.M. | 2005 | Advances in Polymer Science 182,pp. 1-54 | 134 |
2 | Crystallization analysis fractionation | Soares J., Anantawaraskul S., Anantawaraskul S. | 2005 | Journal of Polymer Science, Part B: Polymer Physics 43(13),pp. 1557-1570 | 59 |
3 | Effect of operation parameters on temperature rising elution fractionation and crystallization analysis fractionation | Anantawaraskul S., Soares J., Wood-Adams P. | 2003 | Journal of Polymer Science, Part B: Polymer Physics 41(14),pp. 1762-1778 | 55 |
4 | Effect of molecular weight and average comonomer content on the crystallization analysis fractionation (Crystaf) of ethylene α-olefin copolymers | Anantawaraskul S., Soares J., Wood-Adams P., Monrabal B. | 2003 | Polymer 44(8),pp. 2393-2401 | 53 |
5 | Cocrystallization of blends of ethylene/1-olefin copolymers: An investigation with crystallization analysis fractionation (Crystaf) | Anantawaraskul S., Soares J., Wood-Adams P. | 2004 | Macromolecular Chemistry and Physics 205(6),pp. 771-777 | 40 |
6 | Distribution of the longest ethylene sequence in ethylene/α-olefin copolymers synthesized with single-site-type catalysts | Costeux S., Anantawaraskul S., Wood-Adams P., Soares J. | 2002 | Macromolecular Theory and Simulations 11(3),pp. 326-341 | 36 |
7 | Mathematical modeling of crystallization analysis fractionation of ethylene/1-hexene copolymers | Anantawaraskul S., Jirachaithorn P., Soares J., Limtrakul J. | 2007 | Journal of Polymer Science, Part B: Polymer Physics 45(9),pp. 1010-1017 | 26 |
8 | Mathematical modeling of crystallization analysis fractionation (Crystaf) of polyethylene | Anantawaraskul S., Soares J., Jirachaithorn P., Limtrakul J. | 2006 | Journal of Polymer Science, Part B: Polymer Physics 44(19),pp. 2749-2759 | 25 |
9 | Simultaneous deconvolution of molecular weight distribution and chemical composition distribution of ethylene/1-olefin copolymers synthesized with multiple-site-type catalytic systems | Anantawaraskul S., Bongsontia W., Soares J. | 2009 | Macromolecular Symposia 282(1),pp. 167-174 | 23 |
10 | Simultaneous deconvolution of molecular weight and chemical composition distribution of ethylene/1-olefin copolymers: Strategy validation and comparison | Anantawaraskul S., Bongsontia W., Soares J. | 2011 | Macromolecular Reaction Engineering 5(11-12),pp. 549-562 | 22 |
11 | Cocrystallization of ethylene/1-octene copolymer blends during crystallization analysis fractionation and crystallization elution fractionation | Suriya K., Anantawaraskul S., Soares J. | 2011 | Journal of Polymer Science, Part B: Polymer Physics 49(9),pp. 678-684 | 21 |
12 | Chemical composition distribution of multicomponent copolymers | Anantawaraskul S., Soares J., Wood-Adams P. | 2003 | Macromolecular Theory and Simulations 12(4),pp. 229-236 | 21 |
13 | Silica-supported (nBuCp)2ZrCl2: Effect of catalyst active center distribution on ethylene-1-hexene copolymerization | Atiqullah M., Anantawaraskul S., Emwas A.H.M., Al-Harthi M.A., Hussain I., Ul-Hamid A., Hossaen A. | 2014 | Polymer International 63(6),pp. 955-972 | 21 |
14 | Effects of supported (nBuCp)2ZrCl2 catalyst active-center distribution on ethylene-1-hexene copolymer backbone heterogeneity and thermal behaviors | Atiqullah M., Anantawaraskul S., Emwas A.H.M., Al-Harthi M.A., Hussain I., Ul-Hamid A., Hossaen A. | 2013 | Industrial and Engineering Chemistry Research 52(27),pp. 9359-9373 | 20 |
15 | Estimation of Polymerization Conditions Needed to Make Ethylene/1-olefin Copolymers with Specific Microstructures Using Artificial Neural Networks | Charoenpanich T., Anantawaraskul S., Soares J. | 2016 | Macromolecular Reaction Engineering 10(3),pp. 215-232 | 19 |
16 | A mathematical model for the kinetics of crystallization in crystaf | Anantawaraskul S., Soares J., Jirachaithorn P. | 2007 | Macromolecular Symposia 257,pp. 94-102 | 17 |
17 | Application of a crystallization kinetics model to simulate the effect of operation conditions on Crystaf profiles and calibration curves | Anantawaraskul S., Anantawaraskul S., Somnukguandee P., Somnukguandee P., Soares J.B.P., Limtrakul J. | 2009 | Journal of Polymer Science, Part B: Polymer Physics 47(9),pp. 866-876 | 16 |
18 | Monte Carlo simulation of the microstructure of linear olefin block copolymers | Anantawaraskul S., Somnukguande P., Soares J. | 2012 | Macromolecular Symposia 312(1),pp. 167-173 | 16 |
19 | Simultaneous Deconvolution of the Bivariate Molecular Weight and Chemical Composition Distribution of Ethylene/1-Hexene Copolymers | Hornchaiya C., Anantawaraskul S., Soares J.B.P., Mehdiabadi S. | 2019 | Macromolecular Chemistry and Physics 220(6) | 16 |
20 | Mathematical modeling of temperature rising elution fractionation (TREF) of polyethylene and ethylene/1-olefin copolymers | Siriwongsarn E., Anantawaraskul S., Chokputtanawuttilerd N., Alghyamah A., Alghyamah A., Soares J. | 2012 | Macromolecular Chemistry and Physics 213(18),pp. 1892-1906 | 14 |
21 | Effects of supported metallocene catalyst active center multiplicity on antioxidant-stabilized ethylene homo- and copolymers: Evaluation of melt stability by nonisothermal DSC study | Atiqullah M., Cibulková Z., Černá A., Šimon P., Hussain I., Al-Harthi M.A., Anantawaraskul S. | 2015 | Journal of Thermal Analysis and Calorimetry 119(1),pp. 581-595 | 13 |
22 | Ethylene homo- and copolymerization chain-transfers: A perspective from supported (n BuCp) 2 ZrCl 2 catalyst active centre distribution | Atiqullah M., Al-Harthi M.A., Anantawaraskul S., Emwas A.H.M. | 2015 | Journal of Chemical Sciences 127(4),pp. 717-728 | 12 |
23 | Bimodality Criterion for the Chemical Composition Distribution of Ethylene/1-Olefin Copolymers: Theoretical Development and Experimental Validation | Narkchamnan K., Anantawaraskul S., Soares J. | 2011 | Macromolecular Reaction Engineering 5(5-6),pp. 198-210 | 12 |
24 | Simulation of crystallization kinetics and morphological development during isothermal crystallization of polymers: Effect of number of nuclei and growth rate | Ketdee S., Anantawaraskul S. | 2008 | Chemical Engineering Communications 195(11),pp. 1315-1327 | 12 |
25 | Dynamic Monte Carlo Simulation of Olefin Block Copolymers (OBCs) Produced via Chain-Shuttling Polymerization: Effect of Kinetic Rate Constants on Chain Microstructure | Tongtummachat T., Anantawaraskul S., Soares J.B.P. | 2018 | Macromolecular Reaction Engineering 12(4) | 12 |
26 | On the Robustness of Forward and Inverse Artificial Neural Networks for the Simulation of Ethylene/1-Butene Copolymerization | Charoenpanich T., Anantawaraskul S., Soares J.B.P. | 2017 | Macromolecular Theory and Simulations 26(6) | 11 |
27 | Understanding the Formation of Linear Olefin Block Copolymers with Dynamic Monte Carlo Simulation | Tongtummachat T., Anantawaraskul S., Soares J. | 2016 | Macromolecular Reaction Engineering 10(6),pp. 535-550 | 11 |
28 | Simultaneous deconvolution of MWD and CCD of ethylene/1-olefin copolymers using genetic algorithm | Nanthapoolsub U., Anantawaraskul S., Saengkhamkhom K. | 2013 | Macromolecular Symposia 330(1),pp. 142-149 | 11 |
29 | Simulation of crystallization analysis fractionation (Crystaf) of linear olefin block copolymers | Anantawaraskul S., Somnukguande P., Soares J. | 2009 | Macromolecular Symposia 282(1),pp. 205-215 | 9 |
30 | Determination of operating conditions of ethylene/1-octene copolymerization using artificial neural network (ANN) | Anantawaraskul S., Toungsetwut M., Pinyapong R. | 2008 | Macromolecular Symposia 264(1),pp. 157-162 | 8 |
31 | Chemical composition distribution of multicomponent copolymer chains | Anantawaraskul S., Soares J.B.P., Wood-Adams P.M. | 2004 | Macromolecular Symposia 206,pp. 69-78 | 8 |
32 | Mathematical model of dynamic crystallization of ethylene/1-octene copolymers | Chokputtanawuttilerd N., Anantawaraskul S., Soares J. | 2013 | Macromolecular Symposia 330(1),pp. 132-141 | 8 |
33 | Chemical composition distribution and temperature rising elution fractionation of linear olefin block copolymers | Anantawaraskul S., Sottesakul S., Siriwongsarn E., Soares J. | 2013 | Macromolecular Symposia 330(1),pp. 123-131 | 8 |
34 | Effect of operating conditions on dynamic crystallization of ethylene/1-octene copolymers | Chokputtanawuttilerd N., Anantawaraskul S., Alghyamah A., Soares J. | 2013 | Macromolecular Chemistry and Physics 214(22),pp. 2591-2601 | 8 |
35 | Mathematical modeling of crystallization elution fractionation of ethylene/1-octene copolymers | Chokputtanawuttilerd N., Anantawaraskul S., Inwong N., Soares J. | 2015 | Macromolecular Chemistry and Physics 216(6),pp. 621-635 | 8 |
36 | Effects of supported (nBuCp)2ZrCl2 catalyst active center multiplicity on crystallization kinetics of ethylene homo- and copolymers | Atiqullah M., Adamu S., Hossain M., Al-Harthi M., Anantawaraskul S., Hossaen A. | 2014 | Journal of the Taiwan Institute of Chemical Engineers 45(4),pp. 1982-1991 | 6 |
37 | High Temperature Thermal Gradient Interaction Chromatography (HT-TGIC) of Ethylene/1-Octene Copolymers: Model Development and Validation | Inwong N., Anantawaraskul S., Soares J., Al- Khazaal A. | 2015 | Macromolecular Symposia 356(1),pp. 54-60 | 6 |
38 | Polyolefins Made with Dual Metallocene Catalysts: How Microstructure Affects Polymer Properties | Voraruth V., Caldera A., Soares J.B.P., Anantawaraskul S. | 2018 | Macromolecular Chemistry and Physics 219(6) | 6 |
39 | Dynamic Monte Carlo Simulation for Chain-Shuttling Polymerization of Olefin Block Copolymers in Continuous Stirred-Tank Reactor | Tongtummachat T., Ma-In R., Anantawaraskul S., Soares J.B.P. | 2020 | Macromolecular Reaction Engineering 14(6) | 6 |
40 | Modeling Propylene Polymerization in a Two-Reactor System: Model Development and Parameter Estimation | Charoenpanich T., Anantawaraskul S., Soares J.B.P., Wongmahasirikun P., Shiohara S. | 2022 | Macromolecular Reaction Engineering
| 6 |
41 | Estimation of average comonomer content of ethylene/1-olefin copolymers using crystallization analysis fractionation (Crystaf) and artificial neural network (ANN) | Anantawaraskul S., Chokputtanawuttilerd N. | 2009 | Macromolecular Symposia 282(1),pp. 150-156 | 6 |
42 | Stochastic simulation for morphological development during the isothermal crystallization of semicrystalline polymers: A case study of syndiotactic polypropylene | Anantawaraskul S., Ketdee S., Supaphol P. | 2009 | Journal of Applied Polymer Science 111(5),pp. 2260-2268 | 6 |
43 | Using Artificial Intelligence Techniques to Design Ethylene/1-Olefin Copolymers | Charoenpanich T., Anantawaraskul S., Soares J.B.P. | 2020 | Macromolecular Theory and Simulations 29(6) | 5 |
44 | Monte Carlo Simulation of Olefin Block Copolymers: Bivariate Distribution of Molecular Weight and Chemical Composition | Buakrong P., Anantawaraskul S., Soares J.B.P. | 2018 | Macromolecular Symposia 377(1) | 5 |
45 | Mathematical Modeling of Multiple High Temperature Thermal Gradient Interaction Chromatography (m-HT-TGIC) for Ethylene/1-Olefin Copolymer Blends | Prasongsuksakul S., Anantawaraskul S., Soares J.B.P. | 2018 | Macromolecular Symposia 377(1) | 5 |
46 | Understanding the Microstructure of Living Ethylene/1-Octene Block Copolymers with Dynamic Monte Carlo Simulation | Tongtummachat T., Anantawaraskul S., Soares J.B.P. | 2017 | Macromolecular Theory and Simulations 26(3) | 5 |
47 | Molecular Weight Distribution of Ethylene/1-Olefin Copolymers: Generalized Bimodality Criterion | Vichitlimaporn C., Anantawaraskul S., Soares J.B.P. | 2017 | Macromolecular Theory and Simulations 26(1) | 4 |
48 | An experimental and numerical study on crystallization analysis fractionation (Crystaf) | Anantawaraskul S., Soares J., Wood-Adams P. | 2004 | Macromolecular Symposia 206,pp. 57-68 | 4 |
49 | High temperature thermal gradient interaction chromatography (HT-TGIC) for blends of ethylene/1-octene copolymers: A mathematical model | Inwong N., Anantawaraskul S., Soares J., Al-Khazaal A. | 2015 | Macromolecular Symposia 354(1),pp. 361-366 | 4 |
50 | Development of Bimodality Criterion for the Sequence Length Distribution of Ethylene/1-Olefin Copolymers | Anantawaraskul S. | 2015 | Macromolecular Symposia 356(1),pp. 27-33 | 3 |
51 | Application of Genetic Algorithm in Simultaneous Deconvolution: Case Studies of Ethylene/1-Butene Copolymers with Direct and Inverse MW/CC Relationships | Khayanying K., Anantawaraskul S. | 2020 | Macromolecular Symposia 390(1) | 3 |
52 | Estimation of ethylene/1-butene copolymerization conditions using the autoencoder model | Amnuaykijvanit O., Anantawaraskul S., Rakthanmanon T. | 2022 | Journal of Physics: Conference Series 2175(1) | 2 |
53 | Cocrystallization of Polyethylene Blends during TREF–GPC Cross-Fractionation Characterization | Piriyakulkit P., Kanoknukulchai K., Potisatityuenyong A., Anantawaraskul S. | 2022 | Macromolecular Chemistry and Physics
| 2 |
54 | Influence of the longest ethylene and isotactic propylene sequences on crystallization elution fractionation of ethylene/propylene copolymers | Voraruth V., Anantawaraskul S., Mehdiabadi S., Soares J.B.P. | 2023 | Canadian Journal of Chemical Engineering
| 2 |
55 | Mathematical Modeling of Multiple Crystallization Elution Fractionation (m-CEF) of Polyethylene and Ethylene/1-Olefin Copolymer | Buncharoen P., Anantawaraskul S., Chokputtanawuttilerd N. | 2015 | Macromolecular Symposia 356(1),pp. 45-53 | 2 |
56 | Identification of Site Types for Ethylene/1-Olefin Copolymerization in Two-Reactor System Using Simultaneous Deconvolution of Molecular Weight and Chemical Composition Distribution | Chayrattanaroj T., Anantawaraskul S. | 2020 | Macromolecular Symposia 390(1) | 1 |
57 | Deconvolution of Microstructural Distributions of Ethylene/1-Butene Copolymer Blends using Artificial Neural Network | Piriyakulkit P., Anantawaraskul S. | 2022 | Chiang Mai Journal of Science 49(1 Special Issue 1),pp. 217-222 | 1 |
58 | Characterization of chemical composition distribution of ethylene-propylene-diene terpolymers by room temperature liquid adsorption chromatography and comparison to statistical approach | Deshmukh S., Sirithong W., Macko T., Arndt J.H., Bernardo R., Niessen S., Anantawaraskul S., Brüll R. | 2023 | Polymer 285 | 0 |
59 | Using Probability Models to Design the Microstructure of Linear Olefin Block Copolymers | Chayrattanaroj T., Anantawaraskul S., Soares J.B.P. | 2024 | Macromolecules
| 0 |
60 | Monte Carlo Simulation of Crystalline Morphology Under Temperature Gradient: A Case Study of Syndiotactic Polypropylene | Teangtae T., Sooksod T., Anantawaraskul S. | 2018 | Macromolecular Symposia 377(1) | 0 |
61 | Effect of chain microstructure and cooling rate on crystaf calibration curves: An experimental study | Somnukguande P., Anantawaraskul S., Soares J. | 2012 | Macromolecular Symposia 312(1),pp. 191-196 | 0 |
62 | On the size and g-factor of uniform star polymers in a dilute solution: A monte carlo simulation | Anantawaraskul S., Kitthitanesuan N. | 2009 | Kasetsart Journal - Natural Science 43(1),pp. 198-204 | 0 |