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Biomass approach toward robust, sustainable, multiple-shape-memory materials

(2016) ACS MACRO LETTERS. 5(5). p.602-606
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Abstract
We report biomass-derived, shape-memory materials prepared via simple reactions, including "grafting from" ATRP and TAD click chemistry. Although the biomass, including plant oils and cellulose nanocrystals, has heterogeneous chemical structures in nature, these materials exhibit excellent multiple shape-memory properties toward temperature, water, and organic solvents, which are comparable to petroleum counterparts. The work presented herein provides burgeoning opportunities to design the next-generation, low-cost, biomass-prevalent, green materials for niche applications.
Keywords
TRIAZOLINEDIONE CLICK CHEMISTRY, TRANSFER RADICAL POLYMERIZATION, CELLULOSE NANOCRYSTALS, PLANT OIL, POLYMERS, NETWORKS, DESIGN, NANOCOMPOSITES, POLYURETHANES, SYSTEMS

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Chicago
Wang, Zhongkai, Yaqiong Zhang, Liang Yuan, Jeffery Hayat, Nathan M Trenor, Meghan E Lamm, Laetitia Vlaminck, et al. 2016. “Biomass Approach Toward Robust, Sustainable, Multiple-shape-memory Materials.” Acs Macro Letters 5 (5): 602–606.
APA
Wang, Zhongkai, Zhang, Y., Yuan, L., Hayat, J., Trenor, N. M., Lamm, M. E., Vlaminck, L., et al. (2016). Biomass approach toward robust, sustainable, multiple-shape-memory materials. ACS MACRO LETTERS, 5(5), 602–606.
Vancouver
1.
Wang Z, Zhang Y, Yuan L, Hayat J, Trenor NM, Lamm ME, et al. Biomass approach toward robust, sustainable, multiple-shape-memory materials. ACS MACRO LETTERS. 2016;5(5):602–6.
MLA
Wang, Zhongkai, Yaqiong Zhang, Liang Yuan, et al. “Biomass Approach Toward Robust, Sustainable, Multiple-shape-memory Materials.” ACS MACRO LETTERS 5.5 (2016): 602–606. Print.
@article{8067758,
  abstract     = {We report biomass-derived, shape-memory materials prepared via simple reactions, including {\textacutedbl}grafting from{\textacutedbl} ATRP and TAD click chemistry. Although the biomass, including plant oils and cellulose nanocrystals, has heterogeneous chemical structures in nature, these materials exhibit excellent multiple shape-memory properties toward temperature, water, and organic solvents, which are comparable to petroleum counterparts. The work presented herein provides burgeoning opportunities to design the next-generation, low-cost, biomass-prevalent, green materials for niche applications.},
  author       = {Wang, Zhongkai and Zhang, Yaqiong and Yuan, Liang and Hayat, Jeffery and Trenor, Nathan M and Lamm, Meghan E and Vlaminck, Laetitia and Billiet, Stijn and Du Prez, Filip and Wang, Zhigang and Tang, Chuanbing},
  issn         = {2161-1653},
  journal      = {ACS MACRO LETTERS},
  keyword      = {TRIAZOLINEDIONE CLICK CHEMISTRY,TRANSFER RADICAL POLYMERIZATION,CELLULOSE NANOCRYSTALS,PLANT OIL,POLYMERS,NETWORKS,DESIGN,NANOCOMPOSITES,POLYURETHANES,SYSTEMS},
  language     = {eng},
  number       = {5},
  pages        = {602--606},
  title        = {Biomass approach toward robust, sustainable, multiple-shape-memory materials},
  url          = {http://dx.doi.org/10.1021/acsmacrolett.6b00243},
  volume       = {5},
  year         = {2016},
}

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