Abstract
The bioactive packaging polyvinyl alcohol (PVA)/starch films were prepared by incorporating combined antioxidant agents i.e. extracted spent coffee ground (ex-SCG) and citric acid. Effect of citric acid content on chemical compatibility, releasing of antioxidant, antibacterial activities, and physical and mechanical properties of PVA/starch incorporated ex-SCG (PSt-E) films was studied. The results of ATR-FTIR spectra showed that antioxidant agents of ex-SCG can penetrate into the film and the ester bond of blended films by citric acid was also observed. The presence of ex-SCG increased efficiency of antioxidant release and antimicrobial activity. The PSt-E film incorporated 30 wt% citric acid showed minimum inhibitory concentration against Escherichia coli (E. coli) and Staphylococcus aureus (S. aureus). The incorporation of ex-SCG and citric acid into film showed a synergistic effect on antibacterial activity. The water resistance and kinetic moisture sorption improved with incorporation of citric acid. The tensile strength and biodegradability of samples were in range of 5.63–7.44 MPa and 65.28–86.64%, respectively. Based on this study, PSt-E film incorporated 30 wt% citric acid can be applied as novel food packaging materials.
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Guo G, Zhang C, Du Z, Zou W, Li H (2015) J Polym Environ 23(2):183–189
Puglia D, Dominici F, Kenny JM, Santulli C, Governatori C, Tosti G, Benincasa P (2016) J Polym Environ 24(1):37–47
Trongchuen K, Ounkaew A, Kasemsiri P, Hiziroglu S, Mongkolthanaruk W, Wannasutta R, Pongsa U, Chindaprasirt P (2018) Starch Stärke. https://doi.org/10.1002/star.201700238
Zhao M, Wang Y, Liu L, Liu L, Chen M, Zhang C, Lu Q (2017) Polym Compos. https://doi.org/10.1002/pc.24519
Zhang C, Milhorn A, Haile M, Mai G, Grunlan JC (2017) Green Mater 5(4):182–186
Kasemsiri P, Dulsang N, Pongsa U, Hiziroglu S, Chindaprasirt P (2017) J Polym Environ 25(2):378–390
Pirooz M, Navarchian AH, Emtiazi G (2017) J Polym Environ 26(4):1702–1714
Tian H, Yan J, Rajulu AV, **ang A, Luo X (2017) Int J Biol Macromol 96(Supplement C):518–523
Mittal A, Garg S, Kohli D, Maiti M, Jana AK, Bajpai S (2016) Carbohydr Polym 151(Supplement C):926–938
Acosta S, Chiralt A, Santamarina P, Rosello J, González-Martínez C, Cháfer M (2016) Food Hydrocoll 61(Supplement C):233–240
Talón E, Trifkovic KT, Vargas M, Chiralt A, González-Martínez C (2017) Carbohydr Polym 175(Supplement C):122–130
Valencia-Sullca C, Vargas M, Atarés L, Chiralt A (2018) Food Hydrocoll 75(Supplement C):107–115
Ferri J, Garcia-Garcia D, Sánchez-Nacher L, Fenollar O, Balart R (2016) Carbohydr Polym 147:60–68
Correa AC, Carmona VB, Simão JA, Mattoso LHC, Marconcini JM (2017) Carbohydr Polym 167:177–184
Seligra PG, Jaramillo CM, Famá L, Goyanes S (2016) Carbohydr Polym 138:66–74
Wu Z, Wu J, Peng T, Li Y, Lin D, **ng B, Li C, Yang Y, Yang L, Zhang L (2017) Polymers 9(3):102
Jose J, Al-Harthi MA (2017) Iran Polym J 26(8):579–587
Priya B, Gupta VK, Pathania D, Singha AS (2014) Carbohydr Polym 109(Supplement C):171–179
De’Nobili MD, Soria M, Martinefski MR, Tripodi VP, Fissore EN, Rojas AM (2016) J Food Eng 175:1–7
Dominguez-Martinez BM, Martínez-Flores HE, Berrios JDJ, Otoni CG, Wood DF, Velazquez G (2017) J Polym Environ 25(3):683–691
Chen C-W, **e J, Yang F-X, Zhang H-L, Xu Z-W, Liu J-L, Chen Y-J (2017) J Food Process Preserv. https://doi.org/10.1111/jfpp.13374
López de Dicastillo C, Nerín C, Alfaro P, Catalá R, Gavara R, Hernández-Muñoz P (2011) J Agric Food Chem 59(14):7832–7840
Abdollahi M, Rezaei M, Farzi GA (2012) J Food Eng 111(2):343–350
Tongnuanchan P, Benjakul S, Prodpran T (2012) Food Chem 134(3):1571–1579
Kanmani P, Rhim J-W (2014) Carbohydr Polym 102:708–716
Pereira de Abreu DA, Maroto J, Villalba Rodríguez K, Cruz JM (2012) J Sci Food Agric 92(2):427–432
Yen W-J, Wang B-S, Chang L-W, Duh P-D (2005) J Agric Food Chem 53(7):2658–2663
Parkar SG, Stevenson DE, Skinner MA (2008) Int J Food Microbiol 124(3):295–298
Monente C, Bravo J, Vitas AI, Arbillaga L, De Peña MP, Cid C (2015) J Funct Foods 12:365–374
Brand-Williams W, Cuvelier ME, Berset C (1995) LWT 28(1):25–30
Kim D-O, Lee KW, Lee HJ, Lee CY (2002) J Agric Food Chem 50(13):3713–3717
Yoon S-D, Park M-H, Byun H-S (2012) Carbohydr Polym 87(1):676–686
Ge L, Zhu M, Xu Y, Li X, Li D, Mu C (2017) Food Bioprocess Technol 10(9):1727–1736
Ibrahim H, Farag M, Megahed H, Mehanny S (2014) Carbohydr Polym 101:11–19
Polat S, Uslu M-K, Aygün A, Certel M (2013) J Food Eng 116(2):267–276
Prachayawarakorn J, Pomdage W (2014) Mater Des 61:264–269
Jayasekara R, Harding I, Bowater I, Christie G, Lonergan GT (2004) Polym Test 23(1):17–27
Lyman DJ, Benck R, Dell S, Merle S, Murray-Wijelath J (2003) J Agric Food Chem 51(11):3268–3272
**e JX, Chang JB, Wang XM (2001) Infra-red spectrum applications in organic chemistry and medicinal chemistry. Scientific Publication, Bei**g, pp 296–297
Shi R, Bi J, Zhang Z, Zhu A, Chen D, Zhou X, Zhang L, Tian W (2008) Carbohydr Polym 74(4):763–770
Shi R, Zhang Z, Liu Q, Han Y, Zhang L, Chen D, Tian W (2007) Carbohydr Polym 69(4):748–755
Panusa A, Zuorro A, Lavecchia R, Marrosu G, Petrucci R (2013) J Agric Food Chem 61(17):4162–4168
Hraš AR, Hadolin M, Knez Ž, Bauman D (2000) Food Chem 71(2):229–233
Requena R, Vargas M, Chiralt A (2017) Eur Polym J 92(Supplement C):185–193
López-de-Dicastillo C, Gómez-Estaca J, Catalá R, Gavara R, Hernández-Muñoz P (2012) Food Chem 131(4):1376–1384
Russell NJ, Gould GW (2012) Food preservatives. Springer, New York
Demirci A, Ngadi MO (2012) Microbial decontamination in the food industry: novel methods and applications. Woodhead Publishing Ltd., Cambridge
Mani-López E, García HS, López-Malo A (2012) Food Res Int 45(2):713–721
Lima VN, Oliveira-Tintino CD, Santos ES, Morais LP, Tintino SR, Freitas TS, Geraldo YS, Pereira RL, Cruz RP, Menezes IR (2016) Microb Pathog 99:56–61
Lou Z, Wang H, Zhu S, Ma C, Wang Z (2011) J Food Sci 76(6):M398–M403
Guerrero P, Stefani PM, Ruseckaite RA, de la Caba K (2011) J Food Eng 105(1):65–72
Abdillahi H, Chabrat E, Rouilly A, Rigal L (2013) Ind Crops Prod 50(Supplement C):104–111
Seligra PG, Medina Jaramillo C, Famá L, Goyanes S (2016) Carbohydr Polym 138(Supplement C):66–74
Hulwani A, Zain M, Kahar M, Wahab AB, Ismail H (2018) J Polym Environ 26(2):691–700
Rudnik E, Briassoulis D (2011) J Polym Environ 19(1):18–39
Uranga J, Leceta I, Etxabide A, Guerrero P, de la Caba K (2016) Eur Polym J 78(Supplement C):82–90
Gaikwad KK, Lee JY, Lee YS (2016) J Food Sci Technol 53(3):1608–1619
Liu B, Xu H, Zhao H, Liu W, Zhao L, Li Y (2017) Carbohydr Polym 157:842–849
Araújo GKP, Souza SJ, Silva MV, Yamashita F, Gonçalves OH, Leimann FV, Shirai MA (2015) Int J Food Sci Technol 50(9):2080–2087
Acknowledgements
This work was financial supported by New Research Group, Research fund of the faculty of Engineering, Khon Kaen University and the Applied Engineering for Important Crops of the North East Research Group, Khon Kaen University. The authors also would like to acknowledge the support of Hitachi Scholarship Research and Tokyo Institute of Technology. The authors thank Prof. Shinji Ando at Tokyo Institute of Technology for helpful advice and utilization of ATR-FTIR and SEM.
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Ounkaew, A., Kasemsiri, P., Kamwilaisak, K. et al. Polyvinyl Alcohol (PVA)/Starch Bioactive Packaging Film Enriched with Antioxidants from Spent Coffee Ground and Citric Acid. J Polym Environ 26, 3762–3772 (2018). https://doi.org/10.1007/s10924-018-1254-z
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DOI: https://doi.org/10.1007/s10924-018-1254-z