71. Reversible water capture by a charged metal-free porous polymer
J. Byun, H. A. Patel, D. ThirionC. T. Yavuz*
Polymer, accepted, (2017).
Invited paper for the special issue on Porous Polymers
DOI: 10.1016/j.polymer.2017.05.071

70. Selective removal of cationic micro-pollutants using disulfide-linked network structures
M. S. Atas, S. Dursun, H. Akyildiz, M. Citir, C. T. Yavuz*, M. S. Yavuz*
RSC Adv., 7, 25969-25977, (2017). Open Access
DOI: 10.1039/C7RA04775D

69. Direct access to primary amines and particle morphology control in nanoporous CO2 sorbents
N. A. Dogan§, E. Ozdemir§, C. T. Yavuz*
ChemSusChem, 10, 2130-2134, (2017). §: Equal contribution. Cover Image
DOI: 10.1002/cssc.201700190
DOI for cover image: 10.1002/cssc.201700773

68. Selective removal of heavy metal ions by disulfide linked polymer networks
D. Ko, J. S. Lee, H. A. Patel, M. H. Jakobsen, Y. Hwang, C. T. Yavuz, H. C. B. Hansen, H. R. Andersen*
J. Hazard. Mater., 332, 140–148, (2017).
DOI: 10.1016/j.jhazmat.2017.03.007

67. Enhanced sorption cycle stability and kinetics of CO2 on lithium silicates using lithium ion channeling effect of TiO2 nanotubes
J. S. Lee, C. T. Yavuz*
Ind. Eng. Chem. Res., 56 (12), 3413–3417, (2017). Cover Image
DOI: 10.1021/acs.iecr.6b04918

66. Monitoring instability of linear amine impregnated UiO-66 by in-situ temperature resolved powder X-ray diffraction
Y. Song, D. Thirion, S. Subramanian, M. S. Lah, C. T. Yavuz* 
Micropor. Mesopor. Mater., 243, 85-90, (2017).
DOI: 10.1016/j.micromeso.2017.02.021

65. EEWS 2016: Progress and Perspectives of Energy Science and Technology
J. Oh, J. W. Choi, C. T. Yavuz, S. Y. Chung, J. Y. Park, Y. Jung*
ACS Energy Lett., 2, 592–594, (2017).
DOI: 10.1021/acsenergylett.6b00640

64. Carbon Dioxide Capture Adsorbents: Chemistry and Methods
H. A. Patel, J. Byun, C. T. Yavuz*
ChemSusChem, 10, 7, 1303-1317, (2017).
DOI: 10.1002/cssc.201601545

63. Covalent organic polymer functionalization of activated carbon surfaces through acyl chloride for environmental clean-up
P. D. Mines*, D. Thirion, B. Uthuppu, Y. Hwang, M. H. Jakobsen, H. R. Andersen, C. T. Yavuz*
Chem. Eng. J., 309, 766-771, (2017).
DOI: 10.1016/j.cej.2016.10.085


62. Charge-specific size-dependent separation of water-soluble organic molecules by fluorinated nanoporous networks
J. Byun, H. A. Patel, D. Thirion, C. T. Yavuz*
Nature Commun., 7, 13377, (2016). Open Access
Highlighted in C&EN by Stephen K. Ritter
Also at, Technology Networks, Science Daily.
Selected among top ten Spring 2017 KAIST Breakthroughs.
Listen to the interview by Mik Fanguy at KAIST Podcast

61. Engineered nanoparticles for water treatment application
J. Byun, C. T. Yavuz*
Chapter 2 in Engineered Nanoparticles and the Environment: Biophysicochemical Processes and Toxicity, Edited by B. Xing, C. D. Vecitis, N. Senesi.
WILEY-IUPAC Series in Biophysico-Chemical Processes in Environmental Systems
Published by John Wiley &Sons, Inc.
ISBN: 9781119275824
DOI: 10.1002/9781119275855.ch2

60. Robust C-C bonded porous networks with chemically designed functionalities for improved CO2 capture from flue gas
D. Thirion, J. S. Lee, E. OzdemirC. T. Yavuz*
Beilstein J. Org. Chem., 12, 2274-2279, (2016). OpenAccess
Invited paper for the thematic issue on "Organic Porous Materials"

59. Synthesis and easy functionalization of highly porous networks through exchangeable fluorines for target specific applications
D. Thirion, Y. Kwon, V. Rozyyev, J. Byun, C. T. Yavuz*
Chem. Mater., 28 (16), 5592–5595, (2016). [DOI]

58. Investigation of ester and amide linker based porous organic polymers for carbon dioxide capture and separation at wide temperatures and pressures
R. Ullah§, M. Atilhan*, B. Anaya, S. Al-Muhtaseb, S. Aparicio, H. A. Patel§, D. Thirion, C. T. Yavuz*
ACS Appl. Mater. Interfaces , 8 (32), 20772–20785, (2016). §: Equal contribution [DOI]

57. High performance CO2 filtration and sequestration by using bromomethyl benzene linked microporous networks
R. Ullah§, M. Atilhan*, B. Anaya, S. Al-Muhtaseb, S. Aparicio, D. Thirion§, C. T. Yavuz*
RSC Adv. , 6, 66324–66335, (2016). §: Equal contribution [DOI]

56. High pressure methane, carbon dioxide and nitrogen adsorption on amine-impregnated porous montmorillonite nano-clays
M. Atilhan*, S. Atilhan§, R. Ullah§, B. Anayeha, T. Cagin, C. T. Yavuz, S. Aparicio*
J. Chem. Eng. Data , 61 (8), 2749–2760, (2016). §: Equal contribution [DOI]

55. Observation of wrapping mechanism in amine carbon dioxide molecular interactions on heterogeneous sorbents
D. Thirion, V. Rozyyev, J. Park, Y. Jung, M. Atilhan, C. T. Yavuz*
Phys. Chem. Chem. Phys. , 18, 14177-14181, (2016). [DOI]

54. Rapid extraction of Uranium ions from seawater using novel porous polymeric adsorbents
Y. Sihn,§ J. ByunH. A. Patel, W. Lee*, C. T. Yavuz*
RSC Adv., 6, 45968-45976, (2016). §: Equal contribution [DOI]

53. Increasing mesoporosity by a silica hard template in a covalent organic polymer for enhanced amine loading and CO2 capture capacity
H. Lee, C. T. Yavuz*
Micropor. Mesopor. Mat., 229, 44-50 (2016). [DOI]

52. Crosslinked “poisonous” polymer: Thermochemically stable catalyst support for tuning chemoselectivity
S. Yun, S. Lee, S. Yook, H. A. Patel, C. T. Yavuz, M. Choi*
ACS Catalysis, 6, 2435-2442 (2016). [DOI]

51. Synthesis, characterization and evaluation of porous polybenzimidazole materials for CO2 adsorption at high pressures
R. Ullah, M. Atilhan*, A. Diab, E. Deniz, S. Aparicio*, C. T. Yavuz*
Adsorption, 22 (2), 247-260 (2016). [DOI] [Abstract]

50. Nanoporous networks as effective stabilisation matrixes for nanoscale zero valent iron and groundwater pollutant removal
P. D. Mines, J. Byun, Y. Hwang, H. A. Patel, H. R. Andersen, C. T. Yavuz*
J. Mater. Chem. A, 4, 632-639 (2016). [DOI] [Abstract] OpenAccess


49. Capture agents, conversion mechanisms, biotransformations and biomimetics: general discussion
E. Remiezowicz, J. Spooren, E. Bay, A. Cowan, I. Ingram, P. Abrantes, M. N. da Ponte, M. North, J. Albo, P. Styring, M. Priestnall, K. Lamb, M. Aresta, E. A. Quadrelli, R. Heyn, A. Bardow, W. Webb, R. Silva, C. Alonso-Moreno, C. Janaky, G. Maitland, S. Vaidyanathan, G. V. S. M. Carrera, D. Reed, K. Vanbroekhoven, C. T. Yavuz, D. Pant, N. Hollingsworth
Faraday Discuss., 183, 463-487, (2015) [DOI]

48. Insights of CO2 Adsorption Performance of Amine Impregnated Mesoporous Silica (SBA-15) at Wide Range Pressure and Temperature Conditions
R. Ullah, M. Atilhan*, A. Canlier, S. Aparicio, C. T. Yavuz*
Int. J. Greenh. Gas Control, 43, 22-32, (2015). [DOI] [Abstract]

47. Atom efficiency in small molecule and macromolecule synthesis: general discussion
A. Buchard, M. North, C. Kozak, E. Remiezowicz, P. Abrantes, A. Bardow, J. Dodson, C. Williams, J. Albo, I. Ingram, G. V. S. M. Carrera, P. Styring, M. Poliakoff, K. Lamb, E. A. Quadrelli, N. MacDowell, G. Dowson, M. Aresta, R. Heyn, J. A. Castro-Osma, W. Webb, R. Silva, A. Marciniak, C. Jones, C. T. Yavuz, C. Capacchione, A. Coogan, M. Priestnall
Faraday Discuss., 183, 97-123, (2015) [DOI]

46. Covalent organic polymer framework with C-C bonds as a fluorescent probe for selective iron detection
E. Ozdemir, D. Thirion, C. T. Yavuz*
RSC Adv., 5, 69010-69015, (2015). [DOI] [Abstract]

45. Systematic Investigation of the Effect of Polymerization Routes on the Gas Sorption Properties of Nanoporous Azobenzene Polymers
O. Buyukcakir, S. H. Je, J. Park, H. A. Patel, Y. Jung, C. T. Yavuz*, A. Coskun*
Chem. Eur. J., 21 (43), 15320–15327, (2015). [DOI] [Abstract]

44. Highly Optimized CO2 Capture by Inexpensive Nanoporous Covalent Organic Polymers and Their Amine Composites
H. A. Patel, C. T. Yavuz*
Faraday Discuss., 183, 401-412, (2015). [DOI] [Abstract]

43. Nanoporous Networks as Caging Supports for Uniform, Surfactant-free Co3O4 Nanocrystals and Their Applications in Energy Storage and Conversion
J. Byun, H. A. Patel, D. J. Kim, C. H. Jung, J. Y. Park*, J. W. Choi*, C. T. Yavuz*
J. Mater. Chem. A, 3, 15489 - 15497, (2015). [DOI] [Abstract]
Selected among "Hot Papers of 2015"

42. Influence of interlayer functionalization of kaolinite on property profile of copolymer nanocomposites
S. Zulfiqar*, M. I. Sarwar*, N. Rasheed, C. T. Yavuz
Appl. Clay Sci., 112–113, 25–31, (2015). [DOI] [Abstract]

41. A Half Millimeter Thick Coplanar Flexible Battery with Wireless Recharging Capability
J. S. Kim, D. Ko, D. J. Yoo, D. S. Jung, C. T. Yavuz, N. I. Kim, I. S. Choi, J. Y. Song*, J. W. Choi*
Nano Lett., 15 (4), 2350–2357, (2015). [DOI] [Abstract]
Most read paper in March 2015 

40. Synthesis of nanoporous 1,2,4-oxadiazole networks with high CO2 capture capacity
D. KoH. A. PatelC. T. Yavuz*
Chem. Commun., 51, 2915-2917 (2015). [DOI] [Abstract]

39. A Novel, Reactive Green Iron Sulfide (Sulfide Green Rust) Formed on Iron Oxide Nanocrystals
C. Jones, S. Chattopadhyay, N. I. Gonzalez-Pech, C. Avendano, N. Hwang, S. S. Lee, M. Cho, A. Ozarowski, A. Prakash, J. T. Mayo, C. T. Yavuz, V. L. Colvin*
Chem. Mater., 27 (3), 700-707 (2015). [DOI]


38. Nanoporous Benzoxazole Networks by Silylated Monomers, their Exceptional Thermal Stability and Carbon Dioxide Capture Capacity
H. A. Patel, D. KoC. T. Yavuz*
Chem. Mater., 26 (23), 6729–6733 (2014). [Link]

37. Charged induced formation of crystalline network polymers
A. A. RajaC. T. Yavuz*
RSC Adv., 4 (104), 59779 - 59784 (2014). [Link]

36. Magnetic BaFe12O19 nanofiber filter for effective separation of Fe3O4 nanoparticles and removal of arsenic
J. ByunH. A. PatelC. T. Yavuz*
J. Nanopart. Res., 16:2787 (2014). [Link]

35. Melamine based porous organic amide polymers for CO2 capture
S. Zulfiqar, M. I. Sarwar*, C. T. Yavuz*
RSC Adv., 4, 52263–52269, (2014). [Link]

34. Exceptional organic solvents uptake by disulfide–linked polymeric networks H. A. Patel, M. S. Yavuz, C. T. Yavuz*
RSC Adv., 4 (46), 24320 - 24323, (2014). [Link]

33. Nanostructure and mechanical properties of aromatic polyamide and reactive organoclay nanocomposites
M. U. Alvi, S. ZulfiqarC. T. Yavuz, H.S. Kweon, M. I. Sarwar*
Mater. Chem. Phys., 147, 636-643, (2014). [Link]

32. Conductive nanocomposite materials derived from SEBS-g-PPy and surface modified clay
M. Zahra, S. ZulfiqarC. T. Yavuz, H.S. Kweon, M. I. Sarwar*
Compos. Sci. Technol., 100, 44–52, (2014). [Link]

31. Nanoporous covalent organic polymers incorporating Troger's base functionalities for enhanced CO2 capture
J. Byun, S. H. Je, H. A. Patel, A. Coskun,* C. T. Yavuz*
J. Mater. Chem. A, 2, 12507-12512, (2014). [Link]

30. Directing the structural features of N2-Phobic nanoporous covalent organic polymers for CO2 capture and separation
H. A. Patel, S. H. Je, J. Park, Y. Jung, A. Coskun,* C. T. Yavuz*
Chem. Eur. J., 20, 772-780, (2014). [Link]


29. Amidoxime porous polymers for CO2 capture
S. Zulfiqar, S. Awan, F. Karadas, M. Atilhan*, C. T. Yavuz*, M. I. Sarwar*
RSC Adv., 3 (38), 17203 - 17213, (2013). [Link]

28. Limitations and high pressure behavior of MOF-5 for CO2 capture
J. Y. Jung,‡ F. Karadas,‡ S. Zulfiqar,‡ E. Deniz, S. Aparicio, M. Atilhan*, C. T. Yavuz*, S. M. Han*
Phys. Chem. Chem. Phys., 15, 14319-14327, (2013). [Link] (‡ Equal contribution)

27. Influence of aminosilane coupling agent on aromatic polyamide/intercalated clay nanocomposites
M. U. Alvi, S. Zulfiqar*, C. T. Yavuz, H.-S. Kweon, M. I. Sarwar*
Ind. Eng. Chem. Res., 52 (21), 6908–6915, (2013). [Link]

26. Phosphorus stimulated unidirectional growth of TiO2 nanostructures
L. White, M. Kim, J. Zhang, S. Kraemer, C. T. Yavuz, M. Moskovits, A. M. Wodtke, G. D. Stucky*
J. Mater. Chem. A, 1, 6091-6098, (2013). [Link]

25. A combined computational and experimental study of high pressure and supercritical CO2 adsorption on Basolite MOFs
E. Deniz, F. Karadas, H. A. Patel, S. Aparicio*, C. T. Yavuz*, M. Atilhan*
Micropor. Mesopor. Mat., 175, 34-42 (2013). [Link]

24. Unprecedented high temperature CO2 selectivity in N2-phobic nanoporous covalent organic polymers
H. A. Patel, S. H. Je, J. Park, D. P. Chen, Y. Jung, C. T. Yavuz*, A. Coskun*
Nature Commun., 4:1357, (2013) [Link]
Highlighted in C&EN, Chemistry World

23. Highly stable nanoporous sulfur bridged covalent organic polymers for carbon dioxide removal
H. A. Patel, F. Karadas, J. Byun, J. Park, E. Deniz, A. Canlier, Y. Jung,* M. Atilhan*, C. T. Yavuz*
Adv. Funct. Mater., 23, 2270–2276 (2013). [Link]

22. High pressure CO2 absorption studies on imidazolium based ionic liquids: Experimental and simulation approaches
F. Karadas, B. Köz, J. Jacquemin, E. Deniz, D. Rooney, J. Thompson, C. T. Yavuz, M. Khraisheh, S. Aparicio*, M. Atilhan*
Fluid Phase Equilibria, 351, 74–86 (2013). [Link]


21. Noninvasive functionalization of polymers of intrinsic microporosity for enhanced CO2 capture
H. A. Patel, C. T. Yavuz*
Chem. Comm., 48 (80), 9989–9991 (2012). [Link]

20. CO2 adsorption studies on prussian blue analogues
F. Karadas, H. El-Faki, E. Deniz, C. T. Yavuz*, S. Aparicio*, M. Atilhan*
Micropor. Mesopor. Mat., 162, 91-97, (2012). [Link]

19. Arsenic removal by magnetic nanocrystalline barium hexaferrite (Invited Paper)
H. A. Patel, J. Byun, C. T. Yavuz*
J. Nanopart. Res., 14 (7), 881, (2012). [Link] *Special Issue Contribution

18. One-pot facile synthesis of PEGylated Au nanoparticles in an aqueous media
S. T. Camli, F. Buyukserin, C. T. Yavuz, M. S. Yavuz*
Mater. Chem. Phys., 134 (2–3), 1153–1159, (2012). [Link]

17. High capacity carbon dioxide adsorption by inexpensive covalent organic polymers
H. A. Patel, F. Karadas, A. Canlier, J. Park, E. Deniz, Y. Jung, M. Atilhan*, C. T. Yavuz*
J. Mater. Chem., 22, 8431-8437 (2012). [Link]


16. Amidoximes: Promising candidates for CO2 capture
S. Zulfiqar, F. Karadas, J. Park, E. Deniz, G. D. Stucky, Y. Jung*, M. Atilhan*, C. T. Yavuz*
Energy Environ. Sci., 4, 4528-4531 (2011). [Link]

15. CO2 adsorption studies on hydroxy metal carbonates, M(CO3)x(OH)y (M= Zn, Zn-Mg, Mg, Mg-Cu, Cu, Ni, and Pb) at high pressures up to 175 bar
F. Karadas, C. T. Yavuz, S. Zulfiqar, S. Aparicio-Martinez, G. D. Stucky, M. Atilhan*
Langmuir, 27 (17), 10642–10647 (2011). [Link]

14. Investigation on novel thermoplastic poly(urethane-thiourea-imide)s with enhanced chemical and heat resistance
A. Kausar, S. Zulfiqar, C. T. Yavuz, M. I. Sarwar*
Polym. Degrad. Stabil., 96 (7), 1333-1341 (2011). [Link]

Underlined authors are from ONE Lab.

Before the appointment at KAIST:

13. A multiplexed separation of iron oxide nanocrystals using variable magnetic fields
J. T. Mayo, S. S. Lee, C. T. Yavuz, W. W. Yu, A. Prakash, J. C. Falkner, V. L. Colvin*
Nanoscale, 3, 4560-4563 (2011). [Link]

12. Pollution Magnet: Nano Magnetite for Arsenic Removal from Drinking Water,
C. T. Yavuz, J. T. Mayo, C. Suchecki, J. Wang, A. Z. Ellsworth, H. D’Couto, E. Quevedo, A. Prakash, L. Gonzalez, C. Nguyen, C. Kelty, V. L. Colvin*,
Environ. Geochem. Health, 32:327–334 (2010). [Link]
Selected among the "Six Ideas That Will Change the World" by Esquire 

11. Pd-sensitized single vanadium oxide nanowires: highly-responsive hydrogen sensing based on the Mott transition,
J. M. Baik, M. H. Kim, C. Larson, C. T. Yavuz, G. D. Stucky, A. M. Wodtke, M. Moskovits*
Nano Lett., 9 (12), 3980–3984 (2009). [Link]

10. Growth of metal oxide nanowires from supercooled liquid nanodroplets,
M. H. Kim, B. Lee, S. Lee, C. Larson, J. M. Baik, C. T. Yavuz, S. Seifert, S. Vajda, R. E. Winans, M. Moskovits, G. D. Stucky, A. M. Wodtke*,
Nano Lett. 9 (12), 4138–4146 (2009). [Link]

9. Markedly improved CO2 capture efficiency and stability of gallium substituted hydrotalcites at elevated temperatures,
C. T. Yavuz*, B. D. Shinall, A. V. Iretskii*, M. G. White, T. Golden, M. Atilhan, P. C. Ford, G. D. Stucky,
Chem. Mater., 21 (15), 3473-3475 (2009). [Link]

8. Applying analytical ultracentrifugation to nanocrystal suspensions,
J. A. Jamison, K. M. Krueger, J. T. Mayo, C. T. Yavuz, J. J. Redden, V. L. Colvin*,
Nanotechnology 20, 355702-12, (2009). [Link]

7. Magnetic separations: From steel plants to biotechnology,
C. T. Yavuz, A. Prakash, J. T. Mayo, V. L. Colvin*,
Chem. Eng. Sci., 64, 10, 2510-2521 (2009). [Link]

6. Size-dependent sedimentation properties of nanocrystals,
J. A. Jamison, K. M. Krueger, C. T. Yavuz, J. T. Mayo, D. LeCrone, J. J. Redden, V. L. Colvin*,
ACS Nano 2, 311-319 (2008). [Link]

5. Electrically driven phase transition in magnetite nanostructures,
S. Lee, A. Fursina, J. T. Mayo, C. T. Yavuz, V. L. Colvin, R. G. S. Sofin, I. V. Shvets, D. Natelson*,
Nature Mater., 7, 130-133 (2007). [Link]

4. The effect of nanocrystalline magnetite size on arsenic removal,
J.T. Mayo, C. T. Yavuz, S. Yean, L. Cong, H. J. Shipley, W. W. Yu, J. C. Falkner, A. T. Kan, M. Tomson, V. L. Colvin*,
Sci. Tech. Adv. Mater., 8, 71-75 (2007). [Link]

3. Low-field magnetic separation of monodisperse Fe3O4 nanocrystals,
C. T. Yavuz, J. T. Mayo, W. W. Yu, A. Prakash, J. C. Falkner, S. Yean, L. Cong, H. J. Shipley, A. Kan, M. Tomson, D. Natelson, V. L. Colvin*,
Science, 314, 964-7 (2006). [Link]
Highlighted in New York Times, Guardian, C&EN, Chemistry World, etc.
Selected second in "Top Five Nanotech Breakthroughs" by Forbes

2. Effect of magnetite particle size on adsorption and desorption of arsenite and arsenate,
S. Yean, L. Cong, C. T. Yavuz, J. T. Mayo, W. W. Yu, J. C. Falkner, A. T. Kan, V. L. Colvin, M. Tomson*,
J. Mater. Res., 20(12), 3255-64 (2005). [Link]

1. Synthesis of monodisperse iron oxide nanocrystals by thermal decomposition of iron carboxylate salts,
W. W. Yu, J. C. Falkner, C. T. Yavuz, V. L. Colvin*,
Chem. Comm., 2306-7 (2004). [Link]

* denotes the corresponding author(s)
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