International Journal Articles
1. Sukidpaneenid, S., C. Chawengkijwanich, C. Pokhum, T. Isobe, P. Opaprakasit and P. Sreearunothai*, Multi-function adsorbent-photocatalyst MXene-TiO2 composites for removal of enrofloxacin antibiotic from water, Journal of Environmental Sciences (China), 2023, 124, 414-428. [IF 2020 = 5.57]
2. Eang, C.; Nim, B.; Sreearunothai, P.; Petchsuk, A.; Opaprakasit, P.*, Chemical upcycling of polylactide (PLA) and its use in fabricating PLA-based super-hydrophobic and oleophilic electrospun nanofibers for oil absorption and oil/water separation, New Journal of Chemistry 2022, 46, 14933 - 14943. [IF 2020 = 3.591]
3. Kaewsaneha, C.; Roeurn, B.; Apiboon, C.; Opaprakasit, M.; Sreearunothai, P.; Opaprakasit, P.*, Preparation of Water-Based Alkyl Ketene Dimer (AKD) Nanoparticles and Their Use in Superhydrophobic Treatments of Value-Added Teakwood Products. ACS Omega 2022. [IF 2020 = 4.132]
4. Thananukul, K.; Kaewsaneha, C.; Opaprakasit, P.*; Zine, N.; Elaissari, A*. Biodegradable porous micro/nanoparticles with thermoresponsive gatekeepers for effective loading and precise delivery of active compounds at the body temperature. Scientific. Reports. 2022, 12 (1). [IF 2020 = 5.516]
5. Shahid, M.; Sagadevan, S.; Ahmed, W.; Zhan, Y.; Opaprakasit, P., 1 - Metal oxides for optoelectronic and photonic applications: A general introduction. In Metal Oxides for Optoelectronics and Optics-Based Medical Applications, Sagadevan, S., Podder, J., Mohammad, F. Eds.; Elsevier, 2022; pp 3-31. [IF 2020 = N/A]
6. Ren, N.; Petchsuk, A.; Opaprakasit, M.; Sreearunothai, P.; Opaprakasit, P.*, Surface modifications of low-density polyethylene films with hydrophobic and antibacterial properties by chitosan-based materials, Polymer - Plastics Technology and Engineering 2022, Article. [IF 2020 = 3.267]
7. Arphaphorn Arjhan, Sirirat Wacharawichanant*, Pakorn Opaprakasit, Influence of Lignin Content on Morphology and Properties of Poly(Lactic Acid)/Lignin Composite Films. In 2nd International Conference on Engineering and Industrial Technology, ICEIT 2021, Limmatvapirat, S., Akkaramongkolporn, P., Patrojanasophon, P., Rojanarata, T., Eds.; Trans Tech Publications Ltd: 2022; Vol. 914 KEM, pp 155-161.
8. Putri, O. D.; Petchsuk, A.; Bayram, S.; Opaprakasit, P.*, Ultrasonicate-assisted preparation of eumelanin-loaded nano/microparticles based on polylactide stereocomplex. Materials Today: Proceedings 2022. [IF 2020 = N/A]
9. Khoerunnisa, F., M. Sihombing, M. Nurhayati, F. Dara, H. A. Triadi, M. Nasir, H. Hendrawan, A. Pratiwi, E. P. Ng and P. Opaprakasit*, Poly(ether sulfone)-based ultrafiltration membranes using chitosan/ammonium chloride to enhance permeability and antifouling properties, Polymer Journal, 2022. [IF 2020 = 4.43]
10. Khoerunnisa, F.; Nurhayati, M.; Annisa, N. A. A.; Fatimah, S.; Nashrah, N.; Hendrawan, H.; Ko, Y. G.; Ng, E. P.; Opaprakasit, P.*, Effects of Benzalkonium Chloride Contents on Structures, Properties, and Ultrafiltration Performances of Chitosan-Based Nanocomposite Membranes, Membranes 2022, 12 (3). [IF 2020 = 3.99]
11. Thananukul, K.; Kaewsaneha, C.; Sreearunothai, P.; Petchsuk, A.; Buchatip, S.; Supmak, W.; Nim, B.; Okubo, M.; Opaprakasit, P.*, Biocompatible Degradable Hollow Nanoparticles from Curable Copolymers of Polylactic Acid for UV-Shielding Cosmetics. ACS Applied Nano Materials 2022, 5 (3), 4473-4483. [IF 2020 = 4.86]
12. Pitakjakpipop, H., R. Rajan, K. Tantisantisom, P. Opaprakasit, D. D. Nguyen, V. A. Ho, K. Matsumura* and P. Khanchaitit, Facile Photolithographic Fabrication of Zwitterionic Polymer Microneedles with Protein Aggregation Inhibition for Transdermal Drug Delivery, Biomacromolecules, 2022, 23(1), 365-376. [IF 2020 = 6.46]
13. Jaikaew, N.; Auras, R.; Opaprakasit, P.*, Optimization of Melt-mixing Transesterification of Polylactide by Polyethylene Glycol Employing Response Surface Methodology, Chiang Mai Journal of Science 2022, 49 (1 Special issue 1), 69-80. [IF 2020 = 0.325]
14. Tu Phuong Pham Le and Opaprakasit P.*, Halogen-free “green and mild” process to generate N-oxoammonium cations for use in oxidation of hydroxyls and its quantitative analysis technique and optimization, Chemical Engineering Journal 2022, 429, 132554. [IF 2020 = 13.273]
15. Khotchana, C., Phapugrangkul, P., Opaprakasit, P., Chaiyasat, P., Chaiyasat, A.*, Synthesis of uniform submicron poly(lactic acid)-based particles/capsules by radical precipitation polymerization, Colloids and Surfaces B: Biointerfaces, 2021, 208, 112122 [IF 2020 = 5.268]
16. Katugampalage, T. R.; Ratanatawanate, C.; Opaprakasit, P.; Kaewsaneha, C.; Sreearunothai, P.*, A smart magnetically separable MIL-53(Al) MOF-coated nano-adsorbent for antibiotic pollutant removal with rapid and non-contact inductive heat regeneration. Chemical Engineering Journal Advances 2021, 100160. [IF 2020 = N/A]
17. Fitri Khoerunnisa*, Mita Nurhayati, Fitri Dara, Regita Rizki, Muhamad Nasir, Hafiz Aji Aziz, Hendrawan Hendrawan, Ng Eng Poh, Chariya Kaewsaneha, Pakorn Opaprakasit*, Physicochemical Properties of TPP-Crosslinked Chitosan Nanoparticles as Potential Antibacterial Agents, Fibers and Polymers 2021. [IF 2020 = 1.797]
18. Thananukul, K.; Kaewsaneha, C.; Opaprakasit, P.; Lebaz, N.; Errachid, A.; Elaissari, A.*, Smart gating porous particles as new carriers for drug delivery, Advanced Drug Delivery Reviews 2021, 174, 425–446. [IF 2020 = 13.300]
19. Kaewsaneha, C.; Opaprakasit, P.*, Stimuli-responsive Bio-based Polymeric Particles and their Use in Biomedical Applications, Science and Innovation of Advanced Materials. 2021, 1(1), Article no. 1. [IF 2020 = N/A]
20. Kaewsaneha, C.*, Elaissari, A., Opaprakasit, P., Sreearunothai, P., Tangboriboonrat, P., Poly(styrene- b-acrylic Acid) Nanoparticles with High Magnetic Loading for Magnetic Hyperthermia Cancer Therapy, ACS Applied Nano Materials, 2021, 4(2), 1841-1848. [IF 2020 = 5.097]
21. Khoerunnisa, F.; Kulsum, C.; Dara, F.; Nurhayati, M.; Nashrah, N.; Fatimah, S.; Pratiwi, A.; Hendrawan, H.; Nasir, M.; Ko, Y. G.; Ng, E.-P.; Opaprakasit, P.*, Toughened chitosan-based composite membranes with antibiofouling and antibacterial properties via incorporation of benzalkonium chloride. RSC Advances 2021, 11 (27), 16814-16822. [IF 2020 = 3.119]
22. Nim, B.; Opaprakasit, P.*, Quantitative analyses of products from chemical recycling of polylactide (PLA) by alcoholysis with various alcohols and their applications as healable lactide-based polyurethanes. Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy. 2021, 255. [IF 2020 = 3.232]
23. Jirawan Jindakaew, Chalita Ratanatawanate, Takeshi Kikutani, and Pakorn Opaprakasit*, Property Enhancement of Polylactide Monofilaments by Cold-Drawing Process and Solvent Infusion, Chiang Mai Journal of Science 2021, 48(2), 323 - 331. [IF 2020 = 0.325]
24. Khoerunnisa, F.; Yolanda, Y. D.; Nurhayati, M.; Zahra, F.; Nasir, M.; Opaprakasit, P.; Choo, M. Y.; Ng, E. P.*, Ultrasonic Synthesis of Nanochitosan and Its Size Effects on Turbidity Removal and Dealkalization in Wastewater Treatment, Inventions 2021, 6 (4), Article. DOI: 10.3390/inventions6040098 [IF 2020 = 2.67]
25. Tu Phuong Pham Le and Opaprakasit P.*, Conversion Mechanisms of Nitroxyl Radical (TEMPO), Oxoammonium Cation, and Hydroxylamine in Aqueous Solutions: Two-Dimensional Correlation Ultraviolet–Visible Spectroscopy, Applied Spectroscopy, 2021, 75(3), 325-335. [IF 2020 = 2.087]
26. Nim, B.; Opaprakasit, M.; Petchsuk, A.; Opaprakasit, P.*; Microwave-assisted chemical recycling of polylactide (PLA) by alcoholysis with various diols, Polymer Degradation and Stability, 2020, 181, Article number 109363, Nov 2020. [IF 2020 = 4.032]
27. Kaewsaneha, C.*, Elaissari, A., Tangboriboonrat, P., Opaprakasit, P.*, Self-assembly of amphiphilic poly(styrene-b-acrylic acid) on magnetic latex particles and their application as a reusable scale inhibitor, RSC Advances, 2020, 10(67), 41187-41196. Nov 2020 [IF 2020 = 3.119]
28. Wongsirojkul, N., Shimokawa, N., Opaprakasit, P., Takagi, M., Hamada, T.*, Osmotic-Tension-Induced Membrane Lateral Organization. Langmuir, 2020, 36 (11), 2937-2945. [IF 2020 = 3.557]
29. Eang, C., Opaprakasit, P.*, Electrospun Nanofibers with Superhydrophobicity Derived from Degradable Polylactide for Oil/Water Separation Applications. Journal of Polymers and the Environment, 2020, 28, 1484-1491. [IF 2020 = 2.572]
30. Tu Phuong Pham Le and Opaprakasit P.*, Preparation of Polylactide/Modified Clay Bio-composites Employing Quaternized Chitosan-Modified Montmorillonite Clays for Use as Packaging Films, Chemical Engineering Transactions, 2020, 78, 115-120. [IF 2020 = N/A, SJR = Q3]
31. Rahman, M., Thananukul, K., Supmak, W., Petchsuk, A., Opaprakasit, P.*, Synthesis and quantitative analyses of acrylamide-grafted poly(lactide-co-glycidyl methacrylate) amphiphilic copolymers for environmental and biomedical applications, Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy, 2020, 225, Jan 2020, Article no. 117447 [IF 2020 = 3.232]
32. Le, G. T. T.; Chanlek, N.; Manyam, J.; Opaprakasit, P.; Grisdanurak, N.; Sreearunothai, P.*, Insight into the ultrasonication of graphene oxide with strong changes in its properties and performance for adsorption applications. Chemical Engineering Journal 2019, 1212-1222. [IF 2020 = 13.273]
33. Nim, B.; Sreearunothai, P.; Petchsuk, A.; Opaprakasit, P.*; Preparation and Properties of Electrospun Fibers of Titanium Dioxide-Loaded Polylactide/Polyvinyl pyrrolidone Blends, Applied Science and Engineering Progress, 2019, 12(1), 52-58, Jan-Mar 2019. [IF 2020 = N/A, SJR]
34. Le, G. T. T.; Manyam, J.; Opaprakasit, P.; Chanlek, N.; Grisdanurak, N.; Sreearunothai, P.*, Divergent mechanisms for thermal reduction of graphene oxide and their highly different ion affinities. Diamond and Related Materials 2018, 89, 246-256. [IF 2020 = 2.650]
35. Thananukul, K.; Petchsuk, A.; Supmak, W.; Chaiyasat, P.; Chaiyasat, A.; Opaprakasit, P.*, Preparation of crosslinked poly(Lactic acid-co-glycidyl methacrylate) microspheres by phase inversion emulsification. Chiang Mai Journal of Science 2018, 45 (5), 2048-2058. [IF 2020 = 0.325]
36. Jaikaew, N.; Petchsuk, A.; Opaprakasit, P.*, Preparation and properties of polylactide bio-composites with surface-modified silica particles. Chiang Mai Journal of Science 2018, 45 (5), 2059-2068. [IF 2020 = 0.325]
37. Rahman, M.; Opaprakasit, P.*; Effects of UV/Photo-Initiator Treatments on Enhancement of Crystallinity of Polylactide Films and Their Physicochemical Properties, Journal of Polymers and the Environment, 2018, 26(7), 2793-2802. [IF 2020 = 2.572]
38. Nim, B.; Sreearunothai, P.; Petchsuk, A.; Opaprakasit, P.*; Preparation of TiO2-loaded electrospun fibers of polylactide/poly(vinylpyrrolidone) blends for use as catalysts in epoxidation of unsaturated oils, Journal of Nanoparticle Research. 2018, 20 (4). [IF 2020 = 2.132]
39. Wadeelada Thitisomboon, Pakorn Opaprakasit, Narisara Jaikaew, Siwarutt Boonyarattanakalin*; Characterizations of modified cassava starch with long chain fatty acid chlorides obtained from esterification under low reaction temperature and its PLA blending. Journal of Macromolecular Science, Part A. 2018, 55(3), 253-25. [IF 2020 = 1.349]
40. Torpanyacharn, O.; Sukpuang, P.; Petchsuk, A.; Opaprakasit, P.; Opaprakasit, M.*, Curable precursors derived from chemical recycling of poly(ethylene terephthalate) and polylactic acid and physical properties of their thermosetting (co)polyesters. Polymer Bulletin. 2018, 75 (1), 395-414. [IF 2020 = 2.014]
41. Rahman, M.; Sreearunothai, P.; Opaprakasit, P.*; Development and Characterization of Photoinduced Acrylamide-Grafted Polylactide Films for Biomedical Applications, International Journal of Polymer Science, 2017, Article Number: 5651398. [IF 2020 = 1.646]
42. Rahman, M.; Opaprakasit, P.*; Quantitative Analysis of Polyacrylamide Grafted on Polylactide Film Surfaces Employing Spectroscopic Techniques, Applied Spectroscopy, 2017, 71 (11), 2457-2468. [IF 2020 = 2.087]
43. Kaewmee, P.; Manyam, J.; Opaprakasit, P.; Truc Le, G. T.; Chanlek, N.; Sreearunothai, P.*, Effective removal of cesium by pristine graphene oxide: Performance, characterizations and mechanisms. RSC Advances. 2017, 7 (61), 38747-38756. [IF 2020 = 3.119]
44. Tippo, N.; Manyam, J.; Yoosuk, B.; Opaprakasit, P.; Sreearunothai, P.*, Slow Release of Menthol Using Sorbents Developed from Microwave Graphene Oxide. Applied Science and Engineering Progress, 2017, 10(1), 71-76. [IF 2020 = N/A, SJR]
45. Sukpuang, P.; Opaprakasit, M.; Petchsuk, A.; Sojikul, P.; Tangboriboonrat, P.; Opaprakasit, P.*, Polylactic Acid Glycolysate as Crosslinkers for Epoxidized Natural Rubber: Effect of Crosslinker Molecular Weight, Journal of Elastomers and Plastics 2015. 48 (2), 105-121 [IF 2020 = 1.200]
46. Opaprakasit, P.*, Boonpa, S.; Jaikaew, N.; Petchsuk, A.; Tangboriboonrat, P., Preparation of Surface-Modified Silica Particles from Rice Husk Ash and Its Composites with Degradable Polylactic Acid, Macromolecular Symposia 2015. 354, 48-54. [IF 2020 = N/A, SJR: Q3]
47. Chantarodsakun, T.; Vongsetskul, T.*; Jangpatarapongsa, K.; Tuchinda, P.; Uamsiri, S.; Bamrungcharoen, C.; Kumkate, S.; Opaprakasit, P.; Tangboriboonrat, P.; [6]-Gingerol-loaded cellulose acetate electrospun fibers as a topical carrier for controlled release, Polymer Bulletin 2014, 71, 3163-3176. [IF 2020 = 2.014]
48. Sriromreun, P.; Petchsuk, A.; Opaprakasit, M.; Opaprakasit, P.*, Miscibility and Hydrolytic Degradability of Polylactic acid/Poly(ethylene terephthalate-co-lactic acid) Blends, Chiang Mai Journal of Science 2014. 41(3), 691-703. [IF 2020 = 0.325]
49. Petchsuk, A.*; Buchatip , S.; Supmak, W.; Opaprakasit, M.; Opaprakasit, P.*, Preparation and Properties of Multi-branched Poly(D-lactide) Derived from Polyglycidol and Its Stereocomplex Blends, eXPRESS Polymer Letters 2014, 8(10), 779-789. [IF 2020 = 3.083]
50. Nuasaen, S.; Opaprakasit, P.; Tangboriboonrat, P.*, Hollow Latex Particles Functionalized with Chitosan for the Removal of Formaldehyde from Indoor Air, Carbohydrate Polymers 2014, 101(1), 179-187. [IF 2020 = 7.182]
51. Thammawong, C.; Buchatip, S.; Petchsuk, A.; Tangboriboonrat, P.; Chanunpanich, N.; Opaprakasit, M.; Sreearunothai, P.; Opaprakasit, P.*, Electrospinning of Poly(L-Lactide-co-DL-Lactide) Copolymers : Effect of Chemical Structures and Spinning Conditions, Polymer Engineering and Science Journal 2014. 54(2), 472-480. [IF 2020 = 1.917]
52. Thammawong, C.; Opaprakasit, P.; Tangboriboonrat, P.; Sreearunothai P.*, Prussian Blue-Coated Magnetic Nanoparticles for Removal of Cesium from Contaminated Environment, Journal of Nanoparticles Research 2013. 15 (6), art no.1689. [IF 2020 = 2.132]
53. Tounthai, J.; Petchsuk, A.; Opaprakasit, P.; Opaprakasit*, M., Curable polyester precursors from polylactic acid glycolyzed products, Polymer Bulletin 2013, 70(8), 2223-2238. [IF 2020 = 2.014]
54. Sriromreun P., Petchsuk A., Opaprakasit M., Opaprakasit P.*, Standard Methods for Characterizations of Structure and Hydrolytic Degradation of Aliphatic/aromatic Copolyesters, Polymer Degradation and Stability 2013, 98 (1), 169-176. [IF 2020 = 4.032]
55. Petchsuk A.*, Submark W., Opaprakasit P., Development of Crosslinkable Poly(lactic acid-co-glycidyl methacrylate) Copolymers and their Curing Behaviors, Polymer Journal 2013, 45, 406-412. [IF 2020 = 2.826]
56. Thammawong C., Sreearunothai P., Petchsuk A., Tangboriboonrat P., Pimpha N., Opaprakasit P.*, Preparation and Characterizations of Naproxen-Loaded Magnetic Nanoparticles Coated with PLA-g-Chitosan Copolymer, Journal of Nanoparticles Research 2012, 14(8), art no.1046. [IF 2020 = 2.132]
57. Kaewsaneha C., Opaprakasit P., Polpanich D., Smanmoo S., Tangboriboonrat P.*, Immobilization of Fluorescein Isothiocyanate on Magnetic Polymeric Nanoparticle Using Chitosan as Spacer, Journal of Colloid and Interface Science 2012, 377, 145-152. [IF 2020 = 7.489]
58. Nguyen T.H., Tangboriboonrat P., Rattanasom N., Petchsuk A., Opaprakasit M., Thammawong C., Opaprakasit P.*, Polylactic acid/Ethylene Glycol Triblock Copolymers as Novel Crosslinkers for Epoxidized Natural Rubber, Journal of Applied Polymer Science 2012, 124(1), 164-174. [IF 2020 = 2.520]
59. Kongthong W., Petchsuk A., Opaprakasit P., Opaprakasit M.*, Processability Enhancement of Poly(lactic acid-co-ethylene terephthalate) by Blending with Poly(ethylene-co-vinyl acetate), Poly(3-hydroxybutyrate-co-3-hydroxyvalerate),and Poly(butylene succinate), Polymer Bulletin 2011, 67, 275-290. [IF 2020 = 2.014]
60. Tanpantree, S., Opaprakasit, P., Polpanich, D., Smanmoo, S., Tangboriboonrat, P.*, Polymeric Disinfectant Nanocapsules: Effect of Molecular Weight of Poly(methyl methacrylate), Journal of Biomedical Nanotechnology 2010, 6(4), 385-390. [IF 2020 = 4.483]
61. Kaewsaneha, C., Opaprakasit, P., Polpanich, D., Smanmoo, S., Tangboriboonrat, P.*, Composite Particles of Disinfectant Nanocapsules-Skim Rubber Latex, International Journal of Polymer Analysis and Characterization 2010, 15 (8), 524-535. [IF 2020 = 1.716]
62. Namkajorn M., Petchsuk A., Opaprakasit M., Opaprakasit P. *, Synthesis and Characterizations of Degradable Aliphatic-Aromatic Copolyesters from Lactic Acid, Dimethyl Terephthalate and Diol: Effects of Diol Type and Monomer Feed Ratio, eXPRESS Polymer Letters 2010, 4 (7), 415-422. [IF 2020 = 3.083]
63. Tanpantree S., Opaprakasit P., Loykulnant S., Kangwansupamonkon W., Tangboriboonrat P.*, Nanocapsules Embedded in Natural Rubber Latex Gloves, Journal of Applied Polymer Science 2010, 117, 1798-1803. [IF 2020 = 2.520]
64. Opaprakasit M.*, Petchsuk A., Opaprakasit P., Chongprakobkit S., Effects of Synthesis Conditions on Chemical Structures and Physical Properties of Copolyesters from Lactic acid, Ethylene Glycol and Dimethyl Terephthalate, eXPRESS Polymer Letters 2009, 3, 458–468. [IF 2020 = 3.083]
65. Opaprakasit P.*, Opaprakasit M., Thermal Properties and Crystallization Behaviors of Polylactide and Its Enantiomeric Blends, Macromolecular Symposia, 2008, 264, 1, 113-120. [IF 2020 = N/A, SJR: Q3]
66. Opaprakasit P.*, Opaprakasit M., Tangboriboonrat P., Crystallization of Polylactide and Its Stereocomplex Investigated by Two-Dimensional FTIR Correlation Spectroscopy Employing Carbonyl Overtones, Applied Spectroscopy, 2007, 61, 12, 1352-1358. [IF 2020 = 2.087]
67. Opaprakasit P.*, Petchsuk A., Painter P.C., Malkov S., Dynamic 2D-FTIR Spectroscopic Studies of Poly(Vinylidine Fluoride/Trifluoroethylene/Chloro trifluoroethylene), P(VDF/TrFE/CTFE) Terpolymer, Chiang Mai Journal of Science, 2005, 32, 515-519. [IF 2020 = 0.420]
68. Larsen J.W.*, Islas-Flores C., Aida M.T., Opaprakasit P., Painter P.C., Low Temperature Anhydride Formation in Kerogens, Energy & Fuels 2005, 19, 145-151. [IF 2020 = 3.421]
69. Opaprakasit P., Painter, P.C.*, Swelling of Clays in N-Methyl-2-Pyrrolidinone/Carbon Disulfide Mixed Solvents, Energy & Fuels 2004, 18, 1704-1708. [IF 2020 = 3.421]
70. Opaprakasit P., Painter, P.C.*, Determination of the Glass Transition Temperature of a Coal Extract, Using a Polymer Blend Methodology, Energy & Fuels 2004, 18, 1648-1655. [IF 2020 = 3.421]
71. Opaprakasit, P.; and Painter, P.C.*, Concerning the Glass Transition Temperature of Coal, Energy & Fuels 2003, 17, 354-358. [IF 2020 = 3.421]
72. Opaprakasit, P.; Scaroni, A.W.; and Painter, P.C.*, Ionomer-Like Structures and π-Cation Interactions in Argonne Premium Coals, Energy & Fuels 2002, 16, 543-551. [IF 2020 = 3.421]
73. Opaprakasit, P.; Scaroni, A.W.; and Painter, P.C.*, Intramolecular Hydrogen Bonding and Calixarene-Like Structures in p-Cresol/ Formaldehyde Resins, Journal of Molecular Structure 2001, 570, 25-35. [IF 2020 = 2.463]
74. Painter, P.C.*; Opaprakasit, P.; and Scaroni, A.W., Ionomers and the Structure of Coal, Energy & Fuels 2000, 14, 1115-118. [IF 2020 = 3.421]