doi:

DOI: 10.3724/SP.J.1105.2014.13303

Acta Polymerica Sinica (高分子学报) 2014/014:2 PP.179-187

XAFS Applications on Polymers and Related Materials


Abstract:
polymer materials are a class of materials of great importance for their peculiar chemical-physical properties.The basic principles of X-ray absorption fine structure (XAFS) which is promoted by synchrotron radiation,including extended X-ray absorption fine structure (EXAFS) and X-ray absorption near-edge structure (XANES) were introduced.Various XAFS methods were reviewed for applications in studies of polymers and related materials,including usual polymers,organometallic polymers,Pd-droped polymers,ionomers,carbon based materials,etc.These mentioned applications have showed the significance and advantage of XAFS in polymers and related materials field.It is confident that the promotion and growth in XAFS would bring more benefits in scientific research of polymers.

Key words:Polymer materials, X-ray absorption fine structure (XAFS), Atomic structures

ReleaseDate:2014-07-21 17:05:28



1 Li Xiuhong(李秀宏),Huang Sheng(黄胜),Wang Yuzhu(王玉柱),Wang Jie(王劼),He Jianhua(何建华).Modern Physics(现代物理知识),2012,22:20~28

2 Liu J X,Men Y F.Chinese J Polym Sci,2013,31(9):1218~1224

3 Gholamian F,Ansari M,Abdullah M,Bataghva F,Ghariban-Lavasani S.Chinese J Polym Sci,2013,31(10):1372~1381

4 Lu K.Science,2010,328:319~320

5 Chen Wei(陈炜),Cong Yuanhua(丛远华),Hong Zhihua(洪执华),Su Fengmei(苏凤梅),Zhou Weiming(周韦明)Li Liangbin(李良彬).Physics(物理),2012,41:236~243

6 Wei Shiqiang(韦世强),Sun Zhihu(孙治湖),Pan Zhiyun(潘志云),Yan Wensheng(闫文盛),Zhong Wenjie(钟文杰),He Bo(贺博),Xie Zhi(谢治)Wei Zheng(韦正).J Univ Sci Tech China(中国科学技术大学学报),2007,37:426~440

7 Riggs-Gelasco P J,Stemmler T L,Penner-Hahn J E.Coordin Chem Rev,1995,144:245~286

8 Hoffmann M M,Darab J G,Heald S M,Yonker C R,Fulton J L.Chemical Geology,2000,167:89~103

9 Honma T,Oji H,Hirayama S,Taniguchi Y,Ofuchi H,Takagaki M.AIP Conference Proceedings,2010,1234:13~16

10 Reich T,Reich T Y,Amayri S,Drebert J,Banik N L,Buda R A,Kratz J V,Trautmann N.AIP Conference Proceedings,2007,882:179~183

11 Jr G E B,Catalano J G,Templeton A S,Trainor T P,Farges F,Bostick B C,Kendelewicz T,Doyle C S,Spormann A M,Revill K,Morin G,Juillot F,Calas G.Physica Scripta,2005,T115:80~87

12 Bare S R,Kelly S D,Ravel B,Greenlay N,King L,Mickelson G E.Phys Chem Chem Phys,2010,12:7702~7711

13 Koningsberger D C,Mojet B L,van Dorssen G E,Ramaker D E.Top Catal,2000,10:143~155

14 Kuroda H,Ohta T.J Synchrotron Rad,1994,1:91~94

15 Ohta T.Physica B,1995,208:427~430

16 Grady B P.Macromolecules,1999,32:2983~2988

17 Asakura K.Catal Surv Asia,2003,7:177~182

18 Farrell K V,Grady B P.Macromolecules,2001,34:7108~7112

19 Sobczak J W,Sobczak E,Drelinkiewicz A,Hasik M,Wenda E.J Alloys Compd,2004,362:162~166

20 Takekoh R,Okubo M,Araki T,Stover H D H,Hitchcock A P.Macromolecules,2005,38:542~551

21 Smolentsev G,Soldatov A V,D’Acapito F,Polzonetti G,Fratoddi I.J Phys:Condens Matter,2006,18:759~766

22 Lécayon G,Didier I,Viel P,Defranceschi M,Tourbillon G,Delhalle J.J Phys Chem,1993,97:4777~4779

23 Ohta T.J Electron Spectrosc,1998,92:131~137

24 Dhez O,Ade H,Urquhart S G.J Electron Spectrosc,2003,128:85~96

25 Levina A,Armstrong R S,Lay P A.Coordin Chem Rev,2005,249:141~160

26 Kikuma J,Tonner B P.J Electron Spectrosc,1996,82:53~60

27 Boudou J P,Parent Ph,Suárez-García F,Villar-Rodil S,Martínez-Alonso A,Tascón J M D.Carbon,2006,44:2452~2462

28 Ohta T,Seki K,Yokoyama T,Morisada I,Edamatsu K.Physica Scripta,1990,41:150~153

29 Wang Y,Rafailovich M,Sokolov J,Gersappe D,Araki T,Zou Y,Kilcoyne A D L,Ade H,Marom G,Lustiger A.Phys Rev Lett,2006,96:028303

30 Hennig C,Hallmeier K H,Szargan R.Synthetic Matals,1998,92:161~166

31 Kikuma J,Warwick T,Shin H J,Zhang J,Tonner B P.J Electron Spectrosc,1998,94:271~278

32 Winter I,Hormes J,Hiller M.Nucl Instrum Methods Phys Res B,1995,97:287~291

33 Ouchi Y,Mori I,Sei M,Ito E,Araki T,Ishii H,Seki K,Kondo K.Physica B,1995,208:407~408

34 DAcapita F,Fratoddi I,D’Amato R,Russo M V,Contini G,Davoli I,Mobilio S,Polzonetti G.Sensors and Actuators B,2004,100:131~134

35 Russo M V,Infante G,Polzonetti G,Contini G,Tourillon G,Parent Ph,Laffon C.J Electron Spectrosc,1997,85:53~64

36 Chernov V A,Ivanova V N,Kozhevnikova A N,Mardezhova G A,Nikitenko S G,Nikiforov A A.Nucl Instrum Methods Phys Res A,1995,359:250~253

37 Battocchio C,D’Acapito F,Smolentsev G,Soldatov A V,Fratoddi I,Contini G,Davoli I,Polzonetti G,Mobilio S.Chem Phys,2006,325:422~428

38 Sobczak J W,Sobczak E,Kosiński A,Biliński A.J Alloys Compd,2001,328:132~134

39 Grady B P,Moore R B.Macromolecules,1996,29:1685~1690

40 Jeong H-K,Noh H-J,Kim J-Y,Jin M H,Park C Y,Lee Y H.Europhys Lett,2008,82:67004

41 Liu P G,Xiao P,Xiao M,Gong K C.Chinese J Polym Sci,2000,18(5):413~418

42 Jiménez I,Gago R,Albella J M.Phys Rev B,2000,62:4261~4264

43 Sandí G.J New Mat Electr Sys,2003,6:181~189

44 Zou Y Q,Wang C Q,Pan Q M,Zhao T,Wang L Z,Fang S B.Chinese J Polym Sci,2002,20(1):77~80

45 Wang Z,Tang X Z,Yu Z Z,Guo P,Song H H,Du X S.Chinese J Polym Sci,2011,29(3):368~376

46 Zhang Yong(张勇),Tang Yuanhong(唐元洪),Lin Liangwu(林良武),Zhang Enlei(张恩磊).Trans Nonferrous Met Soc China(中国有色金属学会会刊),2008,18:1094~1099

47 Jeong H K,Noh H J,Kim J Y,Colakerol L,Glans P A,Jin M H,Smith K E,Lee Y H.Phys Rev Lett,2009,102:099701

48 Gago R,Jiménez I,Albella J M.Surface Science,2001,482:530~536

49 Hsi H-C,Rood M J,Rostam-Abadi M,Chen S,Chang R.Environ Sci Technol,2001,35:2785~2791

50 Kiguchi M,Takai K,Joly V L J,Enoki T,Sumii R,Amemiya K.Phys Rev B,2011,84:045421

51 Wessely O,Eriksson O,Katsnelson M I.Phys Rev B,2006,73:075402

52 Batson P E.Phys Rev B,1993,48:2608~2610

53 Wessely O,Katsnelson M I,Eriksson O.Phys Rev Lett,2005,94:167401

54 Brühwiler P A,Maxwell A J,Puglia C,Nilsson A,Andersson S,Mrtensson N.Phys Rev Lett,1995,74:614~617

55 Weng X,Rez P,Ma H.Phys Rev B,1989,40:4175~4178

56 Coffman F L,Cao R,Pianetta P A,Kapoor S,Kelly M,Terminello L J.Appl Phys Lett,1996,69:568~570

57 Lisowska-Oleksiak A,Nowak A P,Wilamowska M,Sikora M,Szczerba W,Kapusta Cz.Synthetic Metals,2010,160:1234~1240

58 Carmalt C J,Crossley J G,Knight J G,Lightfoot P,Martin A,Muldowney M P,Norman N C,Orpen A G.J Chem Soc,Chem Commun,1994,2367~2368

59 Miki T,Oishi K,Nagamatsu S,Akatsuka T,Konishi T,Itatani T,Fujikawa T.J Phys:Conference Series,2009,190:012117

60 Deshpande A P.Physica B,1995,208:579~580

61 Chaboy J,Castro C.J Non-Cryst Solids,1997,212:11~22

62 Wolf S E,Leiterer J,Pipich V,Barrea R,Emmerling F,Tremel W.J Am Chem Soc,2011,133:12642~12649

63 Viswanathan R,Hou G,Liu R,Bare S R,Modica F,Mickelson G,Segre C U,Leyarovska N,Smotkin E S.J Phys Chem B,2002,106:3458~3465

64 Linford R G.Chem Soc Rev,1995,24:267~277

65 Fraxedas J,Lee Y J,Jiménez I,Gago R,Nieminen R M,Ordejón P,Canadell E.Phys Rev B,2003,68:195115

66 Coustel R,Witkowski N.J Phys Chem C,2008,112:14102~14107

67 Carravetta V,Polzonetti G,Iucci G,Russo M V,Paolucci G,Barnaba M.Chem Phys Lett,1998,288:37~46

68 Brian P G.Microchem J,2002,71:267~279

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