State-of-the-art analytical methods for assessing dynamic bonding soft matter materials

Brandt, J., Oehlenschlaeger, K. K., Schmidt, F. G., Barner-Kowollik, C., & Lederer, A. (2014) State-of-the-art analytical methods for assessing dynamic bonding soft matter materials. Advanced Materials, 26(33).

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Dynamic bonding materials are of high interest in a variety of fields in material science. The reversible nature of certain reaction classes is frequently employed for introducing key material properties such as the capability to self-heal. In addition to the synthetic effort required for designing such materials, their analysis is a highly complex - yet important - endeavor. Herein, we critically review the current state of the art analytical methods and their application in the context of reversible bonding on demand soft matter material characterization for an in-depth performance assessment. The main analytical focus lies on the characterization at the molecular level. © 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

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ID Code: 99380
Item Type: Journal Article
Refereed: Yes
Additional Information: Cited By :7 Export Date: 5 September 2016 CODEN: ADVME Correspondence Address: Barner-Kowollik, C.; Preparative Macromolecular Chemistry, Institut für Technische Chemie und Polymerchemie, Karlsruhe Institute of Technology (KIT), Engesser Straße 18, 76128 Karlsruhe, Germany; email: References: Lu, H.B., (2013) Pigment Resin Technol., 42, p. 237; Islam, M.R., Lu, Z., Li, X., Sarker, A.K., Hu, L., Choi, P., Li, X., Serpe, M.J., (2013) Anal. Chim. Acta, 789, p. 17; Stuart, M.A.C., Huck, W.T.S., Genzer, J., Müller, M., Ober, C., Stamm, M., Sukhorukov, G.B., Minko, S., (2010) Nat. Mater., 9, p. 101; Lendlein, A., Kelch, S., (2002) Angew. Chem. Int. Ed., 41, p. 2034; (2002) Angew. Chem., 114, p. 2138; Qiu, X., Hu, S., (2013) Materials, 6, p. 738; Roy, I., Gupta, M.N., (2003) Chem. Biol., 10, p. 1161; Gil, E.S., Hudson, S., (2004) Prog. Polym. Sci., 29, p. 1173; Rowan, S.J., Cantrill, S.J., Cousins, G.R.L., Sanders, J.K.M., Stoddart, J.F., (2002) Angew. Chem. Int. Ed., 41, p. 898; (2002) Angew. Chem., 114, p. 1528; Jin, Y., Yu, C., Denman, R.J., Zhang, W., (2013) Chem. Soc. Rev., 42, p. 6634; Reutenauer, P., Buhler, E., Boul, P.J., Candau, S.J., Lehn, J.-M., (2009) Chem. Eur. J., 15, p. 1893; Lehn, J.-M., (1999) Chem. Eur. J., 5, p. 2455; Lehn, J.-M., (2005) Prog. Polym. Sci., 30, p. 814; Maeda, T., Otsuka, H., Takahara, A., (2009) Prog. Polym. Sci., 34, p. 581; Blaiszik, B.J., Kramer, S.L.B., Olugebefola, S.C., Moore, J.S., Sottos, N.R., White, S.R., (2010) Annu. Rev. Mater. Res., 40, p. 179; Yuan, Y.C., (2008) EXPRESS Polym. Lett., 2, p. 238; Wu, D.Y., Meure, S., Solomon, D., (2008) Prog. Polym. Sci., 33, p. 479; Syrett, J.A., Becer, C.R., Haddleton, D.M., (2010) Polym. Chem., 1, p. 978; Brochu, A.B.W., Craig, S.L., Reichert, W.M., (2011) J. Biomed. Mater. Res. A, 96, p. 492; Yu, X., Cao, X., Chen, L., Lan, H., Liu, B., Yi, T., (2012) Soft Matter, 8, p. 3329; Itoga, K., Yamato, M., Kobayashi, J., Kikuchi, A., Okano, T., (2004) Biomaterials, 25, p. 2047; Chiesa, M., Cardenas, P.P., Otõn, F., Martinez, J., Mas-Torrent, M., Garcia, F., Alonso, J.C., Garcia, R., (2012) Nano Lett., 12, p. 1275; Liu, F., Li, F., Deng, G., Chen, Y., Zhang, B., Zhang, J., Liu, C.-Y., (2012) Macromolecules, 45, p. 1636; Rodriguez, E.D., Luo, X., Mather, P.T., (2011) ACS Appl. Mater. Interfaces, 3, p. 152; Nji, J., Li, G., (2010) Polymer, 51, p. 6021; Guimard, N.K., Oehlenschlaeger, K.K., Zhou, J., Hilf, S., Schmidt, F.G., Barner-Kowollik, C., (2012) Macromol. Chem. Phys., 213, p. 131; Otsuka, H., Nagano, S., Kobashi, Y., Maeda, T., Takahara, A., (2010) Chem. Commun., 46, p. 1150; Wojtecki, R.J., Meador, M.A., Rowan, S.J., (2011) Nat. Mater., 10, p. 14; Higaki, Y., Otsuka, H., Takahara, A., (2006) Macromolecules, 39, p. 2121; Inglis, A.J., Barner-Kowollik, C., (2010) Macromol. Rapid Commun., 31, p. 1247; Chen, X., Dam, M.A., Ono, K., Mal, A., Shen, H., Nutt, S.R., Sheran, K., Wudl, F., (2002) Science, 295, p. 1698; Chen, X., Wudl, F., Mal, A.K., Shen, H., Nutt, S.R., (2003) Macromolecules, 36, p. 1802; Zhang, Y., Broekhuis, A.A., Picchioni, F., (2009) Macromolecules, 42, p. 1906; Spiess, H., (1991) Annu. Rev. Mater. Res., 21, p. 131; Syrett, J.A., Mantovani, G., Barton, W.R.S., Price, D., Haddleton, D.M., (2010) Polym. Chem., 1, p. 102; Cappelli, A., Galeazzi, S., Giuliani, G., Anzini, M., Donati, A., Zetta, L., Mendichi, R., Vomero, S., (2007) Macromolecules, 40, p. 3005; Bottomley, P.A., Foster, T.H., Argersinger, R.E., Pfeifer, L.M., (1984) Med. Phys., 11, p. 425; Kamplain, J.W., Bielawski, C.W., (2006) Chem. Commun., 16, p. 1727; Moerdyk, J.P., Bielawski, C.W., (2012) Nat. Chem., 4, p. 275; Oehlenschlaeger, K.K., Guimard, N.K., Brandt, J., Mueller, J.O., Lin, C.Y., Hilf, S., Lederer, A., Barner-Kowollik, C., (2013) Polym. Chem., 4, p. 4348; Kawai, H., Umehara, T., Fujiwara, K., Tsuji, T., Suzuki, T., (2006) Angew. Chem. Int. Ed., 45, p. 4281; (2006) Angew. Chem., 118, p. 4387; Wang, C., Wang, G., Wang, Z., Zhang, X., (2011) Chem. Eur. J., 17, p. 3322; Yu, S., Zhang, R., Wu, Q., Chen, T., Sun, P., (2013) Adv. Mater., 25, p. 4912; Kovaříček, P., Lehn, J.-M., (2012) J. Am. Chem. Soc., 134, p. 9446; Reutenauer, P., Boul, P.J., Lehn, J.-M., (2009) Eur. J. Org. Chem., 2009, p. 1691; Joshi, G., Anslyn, E.V., (2012) Org. Lett., 14, p. 4714; Zhang, R., Yan, T., Lechner, B., Schröter, K., Liang, Y., Li, B., Furtado, F., Saalwächter, K., (2013) Macromolecules, 46, p. 1841; Frenette, M., Aliaga, C., Font-Sanchis, E., Scaiano, J.C., (2004) Org. Lett., 6, p. 2579; Goiti, E., Huglin, M.B., Rego, J.M., (2003) Macromol. Rapid Commun., 24, p. 692; Kavitha, A.A., Singha, N.K., (2009) ACS Appl. Mater. Interfaces, 1, p. 1427; Yi, Y., Xu, H., Wang, L., Cao, W., Zhang, X., (2013) Chem. Eur. J., 19, p. 9506; Podzimek, S., (2011) Light Scattering, Size Exclusion Chromatography and Asymmetric Flow Field Flow Fractionation, , John Wiley & Sons, Hoboken, New Jersey; Polik, W., Burchard, W., (1983) Macromolecules, 982, p. 978; Jacob, J., Anisimov, M.A., Sengers, J.V., Dechabo, V., Yudin, I.K., Gammon, R.W., (2001) Appl. Opt., 40, p. 4160; Ritzl, A., Belkoura, L., Woermann, D., (1999) Phys. Chem. Chem. Phys., 1, p. 1947; Rubinstein, M., Colby, R.H., (2003) Polym. Phys., , Oxford University Press Oxford, UK; Pritchard, M.J., Caroline, D., (1980) Macromolecules, 13, p. 957; Bapat, A., Ray, J., Savin, D., Sumerlin, B., (2013) Macromolecules, 46, p. 2188; Bapat, A.P., Roy, D., Ray, J.G., Savin, D.A., Sumerlin, B.S., (2011) J. Am. Chem. Soc., 133, p. 19832; Bapat, A.P., Ray, J.G., Savin, D.A., Hoff, E.A., Patton, D.L., Sumerlin, B.S., (2012) Polym. Chem., 3, p. 3112; Pusey, P.N., Van Megen, W., (1989) Physica A, 157, p. 705; Akay, G., Hassan-Raeisi, A., Tuncaboylu, D.C., Orakdogen, N., Abdurrahmanoglu, S., Oppermann, W., Okay, O., (2013) Soft Matter, 9, p. 2254; Tuncaboylu, D.C., Sari, M., Oppermann, W., Okay, O., (2011) Macromolecules, 44, p. 4997; Reufer, M., Díaz-Leyva, P., Lynch, I., Scheffold, F., (2009) Eur. Phys. J. E, 28, p. 165; Bajomo, M., Steinke, J.H.G., Bismarck, A., (2007) J. Phys. Chem. B, 111, p. 8655; Nie, J., Du, B., Oppermann, W., (2006) J. Phys. Chem. B, 110, p. 11167; Shibayama, M., Norisuye, T., Nomura, S., (1996) Macromolecules, 29, p. 8746; Orkisz, M.J.P., (1994) Dynamic Light Scattering Studies of Phase Transitions in Polymers and Gels., Computer Science, , Massachusetts Institute of Technology; Joosten, J.G.H., Geladé, E.T.F., Pusey, P.N., (1990) Phys. Rev. A, 42, p. 2161; Coviello, T., Burchard, W., Geissler, E., Maier, D., (1997) Macromolecules, 30, p. 2008; Lederer, A., Burchard, W., Khalyavina, A., Lindner, P., Schweins, R., (2013) Angew. Chem. Int. Ed., 52, p. 4659; (2013) Angew. Chem., 125, p. 4757; Barner-Kowollik, C., Gründling, T., Falkenhagen, J., Weidner, S., (2012) Mass Spectrometry in Polymer Chemistry, , Wiley-VCH, Weinheim, Germany; Gruendling, T., Weidner, S., Falkenhagen, J., Barner-Kowollik, C., (2010) Polym. Chem., 1, p. 599; Fenn, J.B., Mann, M., Meng, C.K., Wong, S.F., Whitehouse, C.M., (1989) Science, 246, p. 64; Fenn, J.B., Mann, M., Meng, C.K., Wong, S.F., Whitehouse, C.M., (1990) Mass Spectrom. Rev., 9, p. 37; Whitehouse, C.M., Dreyer, R.N., Yamashita, M., Fenn, J.B., (1985) Anal. Chem., 57, p. 675; Yamashita, M., Fenn, J.B., (1984) J. Phys. Chem., 88, p. 4451; Karas, M., Bachmann, D., Hillenkamp, F., (1985) Anal. Chem., 57, p. 2935; Hillenkamp, F., Karas, M., Beavis, R.C., Chait, B.T., (1991) Anal. Chem., 63, p. 1193; Tanaka, K., Waki, H., Ido, Y., (1988) Rapid Commun. Mass Spectrom., 2, p. 151; Takáts, Z., Wiseman, J.M., Gologan, B., Cooks, R.G., (2004) Science, 306, p. 471; Takáts, Z., Wiseman, J.M., Gologan, B., Cooks, R.G., (2004) Anal. Chem., 76, p. 4050; Wiseman, J.M., Ifa, D.R., Song, Q., Cooks, R.G., (2006) Angew. Chem. Int. Ed., 45, p. 7188; Takáts, Z., Wiseman, J.M., Cooks, R.G., (2005) J. Mass Spectrom., 40, p. 1261; Cornett, D., Reyzer, M., Chaurand, P., Caprioli, R., (2007) Nat. Methods, 4, p. 828; Cazares, L.H., Troyer, D.A., Wang, B., Drake, R.R., Semmes, O.J., (2011) Anal. Bioanal. Chem., 401, p. 17; Mcdonnell, L.A., Heeren, R.M.A., (2007) Mass Spectrom. Rev., 26, p. 606; Gruendling, T., Guilhaus, M., Barner-Kowollik, C., (2008) Anal. Chem., 80, p. 6915; Gruendling, T., Guilhaus, M., Barner-Kowollik, C., (2009) Macromolecules, 42, p. 6366; Günzler, F., Wong, E.H.H., Koo, S.P.S., Junkers, T., Barner-Kowollik, C., (2009) Macromolecules, 42, p. 1488; Lee, H., Jeong, J.H., Park, T.G., (2001) J. Control. Release, 76, p. 183; Elbert, D.L., Hubbell, J.A., (2001) Biomacromolecules, 2, p. 430; Na, D.H., Park, M.O., Choi, S.Y., Kim, Y.S., Lee, S.S., Yoo, S.D., Lee, H.S., Lee, K.C., (2001) J. Chromatogr. B, 754, p. 259; Vandermeulen, G.W.M., Tziatzios, C., Klok, H., (2003) Macromolecules, p. 4107; Minkenberg, C.B., Florusse, L., Eelkema, R., Koper, G.J.M., Van Esch, J.H., (2009) J. Am. Chem. Soc., 131, p. 11274; Boye, S., Appelhans, D., Boyko, V., Zschoche, S., Komber, H., Friedel, P., Formanek, P., Lederer, A., (2012) Biomacromolecules, 13, p. 4222; Chowdhury, S.K., Doleman, M., Johnston, D., (1995) J. Am. Soc. Mass Spectrom., 6, p. 478; Arndt, K.F., (1996) Polymercharakterisierung, , Hanser Fachbuch, München, Wien; Yamauchi, K., Lizotte, J.R., Long, T.E., (2003) Macromolecules, 36, p. 1083; Park, T., Zimmerman, S.C., (2006) J. Am. Chem. Soc., 128, p. 11582; Striegel, A.M., Yau, W.W., Kirkland, J.J., Bly, D.D., (2009) Modern Size-Exclusion Liquid Chromatography, , John Wiley & Sons, Hoboken, New Jersey; Grubisic, Z., Rempp, P., Benoit, H., (1967) Polym. Lett., 5, p. 753; Brandt, J., Guimard, N.K., Barner-Kowollik, C., Schmidt, F.G., Lederer, A., (2013) Anal. Bioanal. Chem., 405, p. 8981; Park, S., Cho, H., Kim, Y., Ahn, S., Chang, T., (2007) J. Chromatogr. A, 1157, p. 96; Inglis, A.J., Nebhani, L., Altintas, O., Schmidt, F.G., Barner-Kowollik, C., (2010) Macromolecules, 43, p. 5515; Zhou, J., Guimard, N.K., Inglis, A.J., Namazian, M., Lin, C.Y., Coote, M.L., Spyrou, E., Barner-Kowollik, C., (2012) Polym. Chem., 3, p. 628; Guimard, N.K., Ho, J., Brandt, J., Lin, C.Y., Namazian, M., Mueller, J.O., Oehlenschlaeger, K.K., Barner-Kowollik, C., (2013) Chem. Sci., 4, p. 2752; De Villiers, A., Lestremau, F., Szucs, R., Gélébart, S., David, F., Sandra, P., (2006) J. Chromatogr. A, 1127, p. 60; Rebolj, K., Pahovnik, D., Zagar, E., (2012) Anal. Chem., 84, p. 7374; Kanzer, J., Hupfeld, S., Vasskog, T., Tho, I., Hölig, P., Mägerlein, M., Fricker, G., Brandl, M., (2010) J. Pharm. Biomed. Anal., 53, p. 359; Fraunhofer, W., Winter, G., Coester, C., (2004) Anal. Chem., 76, p. 1909; Fraunhofer, W., Winter, G., (2004) Eur. J. Pharm. Biopharm., 58, p. 369; Boye, S., Polikarpov, N., Appelhans, D., Lederer, A., (2010) J. Chromatogr. A, 1217, p. 4841; Ehrhart, J., Mingotaud, A.-F., Violleau, F., (2011) J. Chromatogr. A, 1218, p. 4249; Barman, B.N., Giddings, J.C., (1992) Langmuir, 8, p. 51; Wyatt, P.J., (1993) Anal. Chim. Acta, 272, p. 1; Liu, Y., Bo, S., Zhu, Y., Zhang, W., (2003) Polymer, 44, p. 7209; Kok, S.J., Wold, C.A., Hankemeier, T., Schoenmakers, P.J., (2003) J. Chromatogr. A, 1017, p. 83; Malanin, M., Eichhorn, K.-J., Lederer, A., Treppe, P., Adam, G., Fischer, D., Voigt, D., (2009) J. Chromatogr. A, 1216, p. 8939; Lee, D., Miller, M.D., Meunier, D.M., Lyons, J.W., Bonner, J.M., Pell, R.J., Shan, C.L.P., Huang, T., (2011) J. Chromatogr. A, 1218, p. 7173; Kendrick, B.S., Kerwin, B.A., Chang, B.S., Philo, J.S., (2001) Anal. Biochem., 299, p. 136; Kalista, S.J., Ward, T.C., (2007) J. R. Soc. Interface, 4, p. 405; Khor, S.P., Varley, R.J., Shen, S.Z., Yuan, Q., (2013) J. Appl. Polym. Sci., 128, p. 3743; Park, J.S., Kim, H.S., Thomas Hahn, H., (2009) Compos. Sci. Technol., 69, p. 1082; Kessler, M.R., White, S.R., (2002) J. Polym. Sci. Part A Polym. Chem., 40, p. 2373; Islam, A., Yasin, T., Bano, I., Riaz, M., (2012) J. Appl. Polym. Sci., 124, p. 4184; Jin, H., Miller, G.M., Pety, S.J., Griffin, A.S., Stradley, D.S., Roach, D., Sottos, N.R., White, S.R., (2013) Int. J. Adhes. Adhes., 44, p. 157; Blaiszik, B.J., Sottos, N.R., White, S.R., (2008) Compos. Sci. Technol., 68, p. 978; Yang, J., Keller, M.W., Moore, J.S., White, S.R., Sottos, N.R., (2008) Macromolecules, 41, p. 9650; Sanyal, A., (2010) Macromol. Chem. Phys., 211, p. 1417; Van Krevelen, D.W., (2009) Properties of Polymers: Their Correlation with Chemical Structure; Their Numerical Estimation and Prediction from Additive Group Contributions, , Elsevier Science, Amsterdam; Menard, K.P., (1997) Dynamic Mechanical Analysis: A Practical Introduction, , CRC Press, Boca Raton, Florida; Mc Hugh, J., (2008) Ultrasound Technique for the Dynamic Mechanical Analysis (DMA) of Polymers, , Technische Universität Berlin; Lewis, C.L., Stewart, K., Anthamatten, M., (2014) Macromolecules, 47, p. 729; Fadda, H.M., Khanna, M., Santos, J.C., Osman, D., Gaisford, S., Basit, A.W., (2010) Eur. J. Pharm. Biopharm., 76, p. 493; Okay, O., Durmaz, S., (2002) Polymer, 43, p. 1215; Cates, M.E., Candau, S.J., (1990) J. Phys. Condens. Matter, 2, p. 6869; Knoben, W., Besseling, N.A.M., Bouteiller, L., Stuart, M.A.C., (2005) Phys. Chem. Chem. Phys., 7, p. 2390; Granek, R., Cates, M.E., (1992) J. Chem. Phys., 96, p. 4758; Nakamura, K., Itoh, T., Sakurai, M., Nakagawa, T., (1992) Polym. J., 24, p. 1419; Srivastava, V., Chester, S.A., Ames, N.M., Anand, L., (2010) Int. J. Plast., 26, p. 1138; Park, J.S., Darlington, T., Starr, A.F., Takahashi, K., Riendeau, J., Thomas Hahn, H., (2010) Compos. Sci. Technol., 70, p. 2154; Oehlenschlaeger, K.K., Mueller, J.O., Brandt, J., Hilf, S., Lederer, A., Wilhelm, M., Graf, R., Barner-Kowollik, C., (2014) Adv. Mater., , DOI 10.1002/adma.201306258; Schüssele, A.C., Nübling, F., Thomann, Y., Carstensen, O., Bauer, G., Speck, T., Mülhaupt, R., (2012) Macromol. Mater. Eng., 297, p. 411; Williams, K.A., Boydston, A.J., Bielawski, C.W., (2007) J. R. Soc. Interface, 4, p. 359; Su, X., Chen, W., (2001) Opt. Lasers Eng., 35, p. 263; Su, X., Zhang, Q., (2010) Opt. Lasers Eng., 48, p. 191; Barthel, M.J., Rudolph, T., Teichler, A., Paulus, R.M., Vitz, J., Hoeppener, S., Hager, M.D., Schubert, U.S., (2013) Adv. Funct. Mater., 23, p. 4921; McCombe, G.P., Rouse, J., Trask, R.S., Withers, P.J., Bond, I.P., (2012) Compos. Part A Appl. Sci. Manuf., 43, p. 613; Hocheng, H., Tsao, C., (2007) Key Eng. Mater., 339, p. 16; Wright, P., Fu, X., Sinclair, I., Spearing, S.M., (2008) J. Compos. Mater., 42, p. 1993; Persson, E., Eriksson, I., Zackrisson, L., (1997) Compos. A Appl. Sci. Manuf., 28 A, p. 141
Keywords: dynamic bonding, macromolecules, online analysis, self-healing, Materials science, Mechanical properties, Analytical method, Bonding materials, Material characterizations, Molecular levels, On-line analysis, Performance assessment, Reversible bonding, Soft matter, Characterization, materials, materials testing, procedures, Manufactured Materials
DOI: 10.1002/adma.201400521
ISSN: 09359648
Divisions: Current > Schools > School of Chemistry, Physics & Mechanical Engineering
Current > Institutes > Institute for Future Environments
Current > QUT Faculties and Divisions > Science & Engineering Faculty
Deposited On: 22 Sep 2016 04:50
Last Modified: 27 Sep 2016 02:42

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