Refereed Journal Publications (Google Scholar Profile )

89. X. Chen*, E. Deng*, D. Park, B.A. Pfeifer, N. Dai, H. Lin^§, Grafting activated graphene oxide nanosheets onto ultrafiltration membranes using polydopamine to enhance antifouling properties, ACS Applied Materials & Interfaces, in press (2020)

88. H. Lin and Y. Ding, Polymeric membranes: chemistry, physics, and applications, Journal of Polymer Science, 58, 58, 2423-2424 (2020) (Note: op-ed essay)

86. J. Xu, T. Tran*, H. Lin, N. Dai, Modeling the transport of neutral disinfection byproducts in forward osmosis: roles of reverse salt flux, Water Research, 185, 116255 (2020)

85. H. Nguyen*, M. Hsiao, K. Nagai, and H. Lin^§, Suppressed crystallization and enhanced gas permeability in thin films of cellulose acetate blends, Polymer, 205, 122790 (2020)

84. D. Tian, T. Alebrahim*, G. K. Kline, L. Chen, H. Lin^§, C. Bae^§, Structure and gas transport characteristics of triethylene oxide-grafted polystyrene-b-poly(ethylene-co-butylene)-b-polystyrene (SEBS), Journal of Polymer Science, 58, 2654-2663 (2020)

83. L. Hu*, S. Pal*, H. Nguyen*, V. Bui⁺, and H. Lin^§, Molecularly engineering polymeric membranes for H₂/CO₂ separation at 100 ℃ - 300 ℃, Journal of Polymer Science, 58, 2467-2481 (2020)

82.L. Huang*, J. Liu*, and H. Lin^§, Thermally stable, homogeneous blends of cross-linked poly(ethylene oxide) and crown ethers with enhanced CO₂ permeability, Journal of Membrane Science, 610, 118253 (2020)

81. T. Tran*, X. Chen*, S. Doshi*, C. M. Stafford, and H. Lin^§, Grafting polysiloxane onto ultrafiltration membranes to optimize surface energy and mitigate fouling, Soft Matter, 16, 5044-5053 (2020)

80. J. Liu*, C. R. P. Fulong, L. Hu*, L. Huang*, G. Zhang*, T.R. Cook, and H. Lin^§, Interpenetrating Networks of Mixed Matrix Materials Comprising Metal-Organic Polyhedra for Membrane CO₂ Capture, Journal of Membrane Science, 606, 118122 (2020)

79. N. Shahkaramipour*, A. Jafari, T. Tran*, C.M. Stafford, C. Cheng, and H. Lin^§, Maximizing the grafting of zwitterions onto the surface of ultrafiltration membranes to improve antifouling properties, Journal of Membrane Science, 601, 117909 (2020)

78. T. Tran*, Y. Tu*, S. Hall-Laureano⁺, C. Lin⁺, M. Kawy⁺, and H. Lin^§, “Non-stick” Membranes Prepared by Facile Surface Fluorination for Water Purification, Industrial & Engineering Chemistry Research, 59 (12), 5307-5317 (2020)

77. Y. Li, M. Yavari*, A. Baldanza, E. Di Maio, G. Mensitieri, Y. Okamoto, H. Lin, and M. Galizia, Volumetric and sorption behavior of fluorinated polymers with dioxolane pendant rings for membrane applications, Industrial & Engineering Chemistry Research, 59 (12), 5276-5286 (2020).

76. X. Chen*, Z. Feng⁺, J. Gohil*, C.M. Stafford, N. Dai, L. Huang*^§, and H. Lin^§, Reduced Holey Graphene Oxide Membranes for Desalination with Improved Water Permeance, ACS Applied Materials & Interfaces, 12 (1), 1387-1394 (2020).

75. M. Omidvar*, H. Nguyen*, L. Huang*, C.M. Doherty, A.J. Hill, C.M. Stafford, X. Feng, M.T. Swihart, and H. Lin^§, Unexpectedly Strong Size-Sieving Ability in Carbonized Polybenzimidazole for Membrane H₂/CO₂ Separation, ACS Applied Materials & Interfaces, 11 (50), 47365-47372 (2019)

74. W. Jia*, J. Jeon, L. Zhu*, C. Bae, and H. Lin^§, Fluorinated Polystyrene-b-polybutadiene-b-polystyrene (F-SBS) for Membrane Gas Separation, Journal of Membrane Science, 591, 117296 (2019).

73. J. Liu*, S. Zhang, D. Jiang, C. M. Doherty, A. J. Hill, C. Cheng, H. Park, and H. Lin^§, Highly Polar but Amorphous Polymers with Superior Membrane CO₂/N₂ Separation Properties, Joule, 3(8), 1881-1894 (2019).

72. L. Zhu*, D. Yin, Y. Qin, S. Konda, S. Zhang, A. Zhu, S. Liu, T. Xu, M. T. Swihart, H. Lin^§, Sorption-Enhanced Mixed Matrix Membranes with Facilitated Hydrogen Transport for Hydrogen Purification and CO₂ Capture, Advanced Functional Materials, 1904357 (2019).

71. M. Yavari*, M. Omidvar*, H. Lin^§, Effect of Pendant Dioxolane Rings in Polymers on Gas Transport Characteristics. ACS Appl. Polym. Mater., 1, 1641-1647 (2019).

70. H. Nguyen*, M. Wang, M. Hsiao, K. Nagai, Y. Ding, and H. Lin^§, Suppression of crystallization in thin films of cellulose diacetate and its effect on CO₂/CH₄ separation properties, Journal of Membrane Science, 586, 7-14 (2019).

69. J. Liu*; G. Zhang*; K. Clark*; H. Lin^§. Maximizing ether oxygen content in polymers for membrane CO₂ removal from natural gas. ACS Applied Materials & Interfaces. 11 (11) 10933-10940 (2019).

68. M. Omidvar*, C. Stafford, and H. Lin^§, Thermally Stable Cross-linked P84 with Superior Membrane H₂/CO₂ Separation Properties at 100 ^oC, Journal of Membrane Science, 575, 118-125 (2019)

67. T. Tran*, C. Lin⁺, S. Chaurasia*, and H. Lin^§, Elucidating the relationship between states of water and ion transport properties in hydrated polymers, Journal of Membrane Science, 574, 299-308 (2019)

66. L. Huang*, S. Huang⁺, S.R. Venna, and H. Lin^§, Rightsizing Nanochannels in Reduced-Graphene Oxide Membranes by Solvating for Dye Desalination, Environmental Science and Technology, 52 (21), 12649-12655 (2018)

65. L. Huang*, and H. Lin^§, Engineering Sub-nanometer Channels in Two-Dimensional Materials for Membrane Gas Separation, Membranes, 8(4), 100 (2018)

64. S. Konda, M. M. Mohammadi, R. D. Buchner, H. Lin, and M. T. Swihart, Flame-based Synthesis and in situ Functionalization of Palladium Alloy Nanoparticles, AIChE Journal, 64 (11), 3826-3834 (2018)

63. S. Luo, Q. Zhang, L. Zhu*, H. Lin, B. A. Kazanowska, C. M. Doherty, A. J. Hill, P. Gao, and R. Guo, Ultra-selective and ultra-permeable thermally rearranged polymer membranes for hydrogen purification and CO₂ removal from natural gas, Chemistry of Materials, 30, 15, 5322 – 5332 (2018)

62. J. Xu, T. Tran*, H. Lin, and N. Dai, Removal of Disinfection Byproducts in Forward Osmosis for Wastewater Recycling, Journal of Membrane Science, 564, 352-360 (2018)

61. L. Zhu*, D. Tian, D. Shin, W. Jia*, C. Bae^§, and H. Lin^§, Effects of tertiary amines and quaternary ammonium halides in polysulfone on membrane gas separation properties, Journal of Polymer Science Part B: Polymer Physics, 56, 1239-1250 (2018)

60. A. Ghadimi, S. Norouzbahari, H. Lin, H. Rabiee, and B. Sadatnia, Geometric Restriction of Microporous Supports on Gas Permeance Efficiency of Thin Film Composite Membranes, Journal of Membrane Science, 563, 643-654 (2018)

59.L. Hu*, J. Liu*, L. Zhu*, X. Hou*, L. Huang*, H. Lin^§, and J. Cheng^§, Highly permeable mixed matrix materials comprising crosslinked poly(ethylene oxide) and ZIF-8 nanoparticles for CO₂ capture, Separation and Purification Technology, 205, 58-65 (2018)

58. S. N. Ramanan*, N. Shahkaramipour*, T. Tran*, L. Zhu*, S. R. Venna, C. Lim, A. Singh, P. N. Prasad and H. Lin^§, Self-cleaning membranes for water purification by co-deposition of photo-mobile 4,4’-azodianiline and bio-adhesive polydopamine, Journal of Membrane Science, 554, 164-174 (2018)

57. M. Yavari*, M. Fang, H. Nguyen*, T. C. Merkel, H. Lin^§, and Y. Okamoto^§, Dioxolane-based Perfluoropolymers with Superior Membrane Gas Separation Properties, Macromolecules, 51 (7), 2489-2497 (2018)

56. C. P. Fulong, J. Liu*, V. J. Pastore, H. Lin^§, and T. R. Cook^§, Mixed-matrix materials using metal-organic polyhedra with enhanced compatibility for membrane gas separation, Dalton Transactions, 47 (24) 7905-7915 (2018)

55. M. Omidvar*, H. Nguyen*, J. Liu*, and H. Lin^§, Sorption-Enhanced Membrane Materials for Gas Separation: A Road Less Traveled, Current Opinion in Chemical Engineering, 20, 50-9 (2018)

54. N. Shahkaramipour*, C. K. Lai, S. R. Venna, C. Cheng, and H. Lin^§, Co-deposition of thiol-containing zwitterionic polymers and polydopamine to enhance surface antifouling properties of ultrafiltration membranes, Industrial & Engineering Chemistry Research, 57 (6), 2336-2345 (2018)

53. L. Zhu*, M. Swihart and H. Lin^§, Unprecedented size-sieving ability in polybenzimidazole doped with polyprotic acids for membrane H₂/CO₂ separation, Energy & Environmental Science, 11, 94-100 (2018)

52. M. Yavari*, Y. Okamoto, and H. Lin^§, The Role of Halogens in Polychlorotrifluoroethylene (PCTFE) in Membrane Gas Separations, Journal of Membrane Science, 548, 380-9 (2018)

51. L. Zhu*, M. Swihart and H. Lin^§, Tightening nanostructure of PBI for membrane H₂/CO₂ separation, Journal of Materials Chemistry A, 5, 19914-19923 (2017)

50. M. Wang, J. M. Gorham, J. P. Killgore, M. Omidvar*, H. Lin, F. W. DelRio, L. M. Cox, Z. Zhang, and Y. Ding, Formation of a crack-free, hybrid skin layer with tunable surface topography and improved gas permeation selectivity on elastomers using gel-liquid infiltration polymerization, ACS Applied Materials & Interfaces, 9 (33) 28100-28106 (2017)

49.N. Shahkaramipour*, S. N. Ramanan*, D. Fister, E. Park, S. R. Venna, H. Sun, C. Cheng, and H. Lin^§, Facile grafting of zwitterions onto membrane surface to enhance antifouling properties for wastewater reuse, Industrial & Engineering Chemistry Research, 56 (32), 9202-9212 (2017).

48. N. Shahkaramipour*, T. N. Tran*, S. Ramanan*, and H. Lin^§, Membranes with surface‑enhanced antifouling properties for water purification, Membranes, 7 (1), 13 (2017)

47. T. Tran*; S. Ramanan*; and H. Lin^§, Synthesis of hydrogels with antifouling properties as membranes for water purification, Journal of Visualized Experiments, 122, doi: 10.3791/55426 (2017).

46. H. Fan, R. Wang, L. Shan, H. Yan, J. Li, S. Ji, H. Lin, G Zhang, One-step assembly of molecular separation membranes by direct atomizing oligomer, ACS Applied Materials & Interfaces, 9(4), 4074-4083 (2017).

45. N. Paranjape*, P. Chandra, G. Wu^§ and H. Lin^§, Highly-branched cross-linked poly (ethylene oxide) with enhanced ionic conductivity, Polymer, 111, 1-8 (2017)

44. L. Zhu*, M. Yavari*, W. Jia⁺, E.P. Furlani and H. Lin^§, Geometric restriction of gas permeance in ultrathin film composite membranes evaluated using an integrated experimental and modeling approach, Industrial & Engineering Chemistry Research, 56 (1), 351-358 (2017)

43. D. Havas⁺ and H Lin^§, Optimal membranes for biogas upgrade by removing CO₂: High permeance or high selectivity? Separation Science and Technology, 52 (2), 186-196 (2017)

42. M. Yavari*, S. Maruf, Y. Ding, H. Lin^§, Physical aging of glassy perfluoropolymers in thin film composite membranes. Part II. Glass transition temperature and the free volume model, Journal of Membrane Science, 525, 399-408 (2017)

41. M. Yavari*, T. Le⁺, H. Lin^§, Physical aging of glassy perfluoropolymers in thin film composite membranes. Part I. Gas transport properties, Journal of Membrane Science, 525, 387-398 (2017)

40. S. Luo, J. Liu*, H. Lin, B. A. Kazanowska, M. D. Hunckler, R. K. Roeder, R. Guo, “Preparation and gas transport properties of triptycene-containing polybenzoxazole (PBO)-based polymers derived from thermal rearrangement (TR) and thermal cyclodehydration (TC) processes”, Journal of Materials Chemistry A 4, 17050-17062 (2016).

39. J. Liu*, X. Hou*, H. B. Park, H. Lin^§, “High-performance polymers for membrane CO₂/N₂ separation”, Chemistry - A European Journal, 22 (45), 15980-15990 (2016).

38. H. J. Yen, H. Tsai, M. Zhou, A. Chen, E. F. Holby, S. Choudhury, H. Zhang, L. Zhu*, H. Lin, L. Dai, L. Adamska, S. Tretiak, G. Wu, H. L. Wang, “Structurally defined nanographene assemblies via bottom-up chemical synthesis for highly efficient lithium storage”, Advanced Materials, 28 (46), 10250-10256 (2016).

37. S. Shah*, J. Liu*, S. Ng⁺, S. Luo, R. Guo, C. Cheng, H. Lin^§, Transport properties of small molecules in zwitterionic polymers, Journal of Polymer Science Part B: Polymer Physics, 54, 1924-1934 (2016)

36. B. Lam*, M. Wei⁺, L. Zhu*, S. Luo, R. Guo, A. Morisato, P. Alexandridis, H. Lin^§, Cellulose triacetate doped with ionic liquids for membrane gas separation, Polymer, 89, 1-11 (2016).

35. L. Zhu*, W. Jia⁺, M. Kattula, K. Ponnuru, E.P. Furlani, and H. Lin^§, Effect of porous supports on the permeance of thin film composite membranes: Part I. Track-etched polycarbonate supports, Journal of Membrane Science, 514, 684-695 (2016).

34. S. Zhao*, K. Huang⁺, and H. Lin^§, Impregnated membranes for water purification using forward osmosis, Industrial & Engineering Chemistry Research, 54 (49), 12354-12366 (2015).

33. M. Kattula, K. Ponnuru, L. Zhu*, W. Jia⁺, H. Lin^§ and E. P. Furlani^§, Design ultrathin film composite membranes: the impact of a gutter layer, Scientific Report, 5, DOI: 10.1038/srep15016 (2015).

32. H. Lin^§ and M. Yavari*, “Upper bound of polymeric membranes for mixed-gas CO₂/CH₄ separations”, Journal of Membrane Science, 475, 101-109 (2015).

31. C. H. Jones, M. F. Chen, A. Gollakota, A. Ravikrishnan, G. J. Zhang, S. Lin, M. Tan, C. Cheng, H. Lin, B. A. Pfeifer, “Structure Function Assessment of Mannosylated Poly(beta-amino esters) upon Targeted Antigen Presenting Cell Gene Delivery”, Biomacromolecules 16, 1534-1541 (2015)

30. H. Lin^§; Z. He, Z. Sun.; J. Kniep; A. Ng; R. W. Baker; and T. C. Merkel, “CO₂-selective membranes for hydrogen production and CO₂ capture. Part II: Techno-economic analysis,” Journal of Membrane Science, 493, 794-806 (2015).

29. R. R. Tiwari, Z. Smith, H. Lin, B. D. Freeman, and D. R. Paul, “Gas permeation in thin films of “high free-volume” glassy perfluoropolymers: Part II CO₂ plasticization and sorption”, Polymer 61, 1-14 (2015)

28. H. Lin^§, “Integrated membrane material and process development for gas separation”, Current Opinions in Chemical Engineering, 4, 54-61 (2014).

27. R. R. Tiwari, Z. Smith, H. Lin, B. D. Freeman, and D. R. Paul, “Gas permeation in thin films of “high free-volume” glassy perfluoropolymers: Part I physical aging,” Polymer 55 (22), 5788-5800 (2014).

26. H. Lin^§, R. Daniels, S. M. Thompson, K. D. Amo, Z. He, T. C. Merkel, J. G. Wijmans, “Membrane selective exchange process for dilute methane recovery,” Journal of Membrane Science, 469, 11-18 (2014).

25. H. Lin^§, Z. J. He, Z. Sun, J. M. Vu, A. Ng, M. Mohammed, J. Kniep, T. C. Merkel, T. Wu, R. C. Lambrecht, “CO₂-selective membranes for hydrogen production and CO₂ capture - Part I: Membrane development”, Journal of Membrane Science, 457, 149-161 (2014).

24. H. Lin^§, M. Zhou, J. Ly, J. Vu, J.G. Wijmans, T.C. Merkel, J. Jin, A. Haldeman, E. H. Wagener and D. Rue, “Membrane-based oxygen-enriched combustion,” Industrial Engineering & Chemistry Research, 52, 10820-10834 (2013).

23. H. Lin^§, S.M. Thompson, A. Serbanescu-Martin, J.G. Wijmans, K.D. Amo, K.A. Lokhandwala, B. Low, and T.C. Merkel, “Dehydration of natural gas using membranes. Part II: countercurrent design and field test,” Journal of Membrane Science, 432, 106-114 (2013).

22. H. Lin^§, S.M. Thompson, A. Serbanescu-Martin, J.G. Wijmans, K.D. Amo, K.A. Lokhandwala, and T.C. Merkel, “Dehydration of natural gas using membranes. Part I: composite membranes,” Journal of Membrane Science, 413-414, 70-81 (2012).

21. T.C. Merkel, H. Lin, X. Wei, and R.W. Baker, “Power plant post-combustion carbon dioxide capture: an opportunity for membranes,” Journal of Membrane Science, 359 (1-2), 126-139 (2010).

20. H. Lin^§, B.D. Freeman, S. Kalakunnath, and D.S. Kalika, “Effect of copolymer composition, temperature and carbon dioxide fugacity on pure‑ and mixed‑gas permeability in poly(ethylene glycol)-based materials: free volume interpretation,” Journal of Membrane Science, 291(1-2), 131-139 (2007).

19. S. Kelman, H. Lin, E.S. Sanders and B.D. Freeman, “CO₂/C₂H₆ separation using solubility selective membrane,” Journal of Membrane Science, 305(1-2), 57-68 (2007).

18. S. Kalakkunnath, D.S. Kalika, H. Lin, R.D. Raharjo, and B.D. Freeman, “Molecular dynamics of poly(ethylene glycol) and poly(propylene glycol) copolymer networks by broadband dielectric spectroscopy,” Macromolecules, 40(8), 2773-2781 (2007).

17. S. Kalakkunnath, D.S. Kalika, H. Lin, and B.D. Freeman, “Molecular relaxation in cross‑Linked poly(ethylene glycol) and poly(propylene glycol) diacrylate networks by dielectric spectroscopy,” Polymer, 48, 579-589 (2007).

16. D.P. Dworak, H. Lin, B.D. Freeman, and M.D. Soucek, “Gas permeability analysis of photo-cured cyclohexyl-substituted polysiloxane films,” Journal of Applied Polymer Science, 102(3), 2343-2351 (2006).

15. R.D. Raharjo, H. Lin, B.D. Freeman S. Kalakunnath, and D.S. Kalika, “Gas sorption and transport study in crosslinked poly(propylene glycol diacrylate),” Journal of Membrane Science, 283(1+2), 253-265 (2006).

14. S. Kalakkunnath, D.S. Kalika, H. Lin, and B.D. Freeman, “Viscoelastic characteristics of U.V. polymerized poly(ethylene glycol) diacrylate networks with varying extents of crosslinking,” Journal of Polymer Science, Part B: Polymer Physics, 44(15), 2058-2070 (2006).

13. H. Lin, E. Van Wagner, B.D. Freeman, L.G. Toy, and R.P. Gupta, “Plasticization-Enhanced H₂ Purification Using Polymeric Membranes,” Science, 311(5761), 639-642 (2006).

12. H. Lin, E. Van Wagner, J.S. Swinnea, B.D. Freeman, S.J. Pas, A.J. Hill, S. Kalakkunnath, and D.S. Kalika, “Transport and structural characteristic of crosslinked poly(ethylene oxide) rubbers,” Journal of Membrane Science, 276 (1-2), 145-161 (2006).

11. H. Lin and B.D. Freeman, “Gas permeation and diffusion in crosslinked poly(ethylene glycol diacrylate),” Macromolecules, 39 (10), 3568-3580 (2006).

10. H. Lin, E. Van Wagner, R. Raharjo, B.D. Freeman, and I. Roman, “High performance polymer membranes for natural gas sweetening,” Advanced Materials, 18, 39-44 (2006).

9. S. Kalakkunnath, D.S. Kalika, H. Lin, and B.D. Freeman, “Segmental relaxation characteristics of crosslinked poly(ethylene oxide) copolymer networks,” Macromolecules, 38, 9679-9687 (2005).

8. H. Lin, T. Kai, B.D. Freeman, S. Kalakkunnath, and D.S. Kalika, “The effect of cross-linking on gas permeability in crosslinked poly(ethylene glycol diacrylate),” Macromolecules, 38, 8381-8393 (2005).

7. H. Lin and B.D. Freeman, “Gas and vapor solubility in cross-linked poly(ethylene glycol diacrylate),” Macromolecules, 38, 8394-8407 (2005).

6. H. Lin and B.D. Freeman, “Materials selection guidelines for membranes that remove CO₂ from gas mixtures,” Journal of Molecular Structure, 739, 57-74 (2005).

5. R.S. Prabhakar, R. Raharjo, L.G. Toy, H. Lin, and B.D. Freeman, “Self-consistent model of concentration and temperature dependence of permeability in rubbery polymers,” Industrial Engineering & Chemistry Research, 44, 1547-1556 (2005).

4. Lin, H., and B.D. Freeman, “Gas solubility, diffusivity, and permeability in poly(ethylene oxide),” Journal of Membrane Science, 239, 105-117 (2004).

3. S. Li and H. Lin, "Study of extraction of hydrochloric acid and sulfuric acid by trialkylamine with orthogonal experiment," Journal of Xiamen University (Natural Science), 38(3), 408-412 (1999).

2. S. Li, C. Shi and H. Lin, "Preparation of poly(vinylpyrrolidone)," Chemical World, 40(4), 201-204 (1999).

1. S. Li, J. Zhang, H. Lin and C. Shi, "Extraction process for potassium sulfate production," Journal of Xiamen University (Natural Science), 37(2), 239-242 (1998).

Book Chapters

6. X. Hou, J. Liu, H. Nguyen, and H. Lin, “Doping Polymers with Ionic Liquids to Manipulate Morphology and Membrane Gas Separation Properties,” in Polymerized Ionic Liquids, Edited by A. Eftekhari, Royal Society of Chemistry, 262-279 (2018)

5. L Zhu, M Omid, and H. Lin, “Manipulating Polyimide Nanostructures via Cross‑linking for Membrane Gas Separation,” in Membranes for Gas Separation, Edited by M. A. Carreon, World Scientific, Volume 1, 243-270 (2017).

4. H. Lin, “Permeability,” “Photopolymerization,” and “Crosslinked poly(ethylene oxide),” in Encyclopedia of Membrane, edited by E. Drioli and L. Giomo, Springer Berlin (2016).

3. H. Lin, L.S. White, K.A. Lokhandwala and R.W. Baker, “Natural gas purification,” in Encyclopedia of Membrane Science and Technology, edited by E. M.V. Hoek and V.V. Tarabara, Wiley, New Jersey, pp1644-1667 (2013).

2. V.A. Kusuma, H. Lin, B.D. Freeman, M. Yose-Yacaman, S. Kalakkunnath, and D.S. Kalika, “Structure/property characteristics of polar rubbery polymeric membranes for carbon dioxide removal from mixtures with light gas,” in Membranes: Manufacturing Utilizing Six Sigma and Applications, edited by N.N. Li, A.G. Fane, W.S.W. Ho, and T. Matsuura, Wiley, New York, pp. 929-953 (2008).

1. H. Lin and B.D. Freeman, “Permeation and diffusion,” in Springer-Handbook of Materials Measurement Methods, edited by H. Czichos, L.E. Smith, and T. Saito, Springer, pp. 371-387 (2006).

Patents

10. L. Zhu, L. Huang, M.T. Swihart, and H. Lin, “Organosilica membrane compositions, devices comprising such membranes, and methods for making and using” US Provisional Patent Application, No. 62/962,809 (January 17, 2020)

9. J. Rzayev, J. Mapas, and H. Lin, “Ultrahigh Molecular Weight Block Copolymers and Polymers, Methods of Making Same, and Uses of Same”, US Patent Application 62/501,461 (May 4, 2017), and WO Patent Application PCT/US2018/031215 (May 4, 2018)

8. N.P. Wynn, H. Lin, A. M. Zhou, J. Ly, and T. C. Merkel, “Low-energy process to produce oxygen-enriched air using membrane technology,” US Patent Application 13/439,716 (April 1, 2012), Publication US20130263734A1.

7. N.P. Wynn, H. Lin, M. Zhou, J. Ly, A. Serbanescu-Martin, “Membrane-Based Gas Separation Process Using Ejector-Driven Gas Recycle,” US Patent Number 9,017,451 B2 (April 28, 2015).

6. N.P. Wynn, S. Thomas-Doz, M. Zhou, J. He, and H. Lin, “Process for the Production of Methanol Including Two Membrane Separation Steps,” US Patent Number 8,623,926 B2 (January 7, 2014).

5. N.P. Wynn, D.E. Gottschlich, and H. Lin, “Gas separation process for production of hydrogen by autothermal reforming of natural gas, with carbon dioxide recovery,” US Patent 8,771,637 B2 (July 8, 2014).

4. J.G. Wijmans, T.C. Merkel, H. Lin, S. Thompson, and R. Daniels, “Efficient gas separation process to upgrade dilute methane stream for use as fuel,” US Patent 8,128,733 B2 (March 6, 2012).

3. R.W. Baker, J.G. Wijmans, T.C. Merkel, H. Lin, R. Daniels, and S. Thompson, “Combustion systems, power plants, and flue gas treatment systems incorporating sweep-based membrane separation units to remove carbon dioxide from combustion gases,” US Patent 8,016,923 B2 (September 13, 2011).

2. R.W. Baker, J.G. Wijmans, T.C. Merkel, H. Lin, R. Daniels, and S. Thompson, "Gas separation processes using membranes with permeate sweep to remove CO₂ from combustion gases," US Patent 7,964,020 B2 (June 21, 2011).

1. B.D. Freeman, S. Matteucci, and H. Lin, “Metal oxide nanoparticle filled polymers,” U.S. Patent 7,510,595 B2 (March 31, 2009), International Publication Number WO 2007/084169 A2.