Abstract
Extraction of chemically modified microcrystalline cellulose sheet (MCS) from rice husk is reported using a greener method. MCS is then blended with polyvinyl alcohol (PVA) by solution method under optimum conditions. The structural, morphological and physical properties were studied by spectroscopic, scanning electron microscope, gas chromatograph and standard ASTM methods. The result reveals the formation of carbonated microcrystalline cellulose blended polyvinyl alcohol (MCS-b-PVA) with improved mechanical, barrier and carbon di oxide releasing properties. Further, CO2 releasing ability has made the film suitable for active packaging film for storage of meat products. The chemical mechanistic model for CO2 release has been also proposed under the influence of hydronium ion and relative humidity in context of a close packet.
Graphic Abstract
Similar content being viewed by others
References
Oliveira M, Abadias M, Usall J, Torres R, Teixido N, Vinas I (2015) Trends Food Sci Technol 46:13–26
Iroegbu AO, Hlangothi SP (2018) Chem Afr 1:187–197
Wang H, Qian J, Ding F (2018) J Agric Food Chem 66(2):395–413
Cazón P, Velazquez G, Ramírez JA, Vázquez M (2017) Food Hydrocoll 68:136–148
Shah N, Islam M, Khattaka WA, Parka JK (2013) Carbohydr Polym 98:1585–1598
Shukla SK, Nidhi S, Pooja N, Charu A, Silvi M, Rizwana R, Bharadvaja A, Dubey GC (2014) Adv Mat Lett 5(6):352–355
Shukla SK, Nidhi S, Pooja N, Charu A, Silvi M, Rizwana R, Bharadvaja A, Dubey GC, Tiwari A (2013) Adv Mat Lett 4(9):714–719
Cazón P, Velazquez G, Vázquez M (2018) Polym Test 69:536–544
Cazón P, Vázquez M, Velazquez G (2019) Food Hydrocoll 89:481–491
Shukla SK (2012) Ind J Eng Mater Sci 19:417–420
Shukla SK (2013) Int J Biol Macromol 62:531–536
Chen Y, Tian L, Ju J, Tang J (2018) J Text I 109:1238–1246
Roy K, Potiyaraj P (2018) Cellulose 25:1077
Jiao F, Edberg J, Zhao D, Puzinas S, Khan ZU, Mäkie P, Naderi A, Lindström T, Odén M, Engquist I, Berggren M, Crispin X (2018) Adv Sustain Syst 2:1700121
Shojaeiarani J, Bajwa D, Stark NM (2018) Carbohydr Polym 190:139–147
Periyasamy S, Gopalakannan V, Viswanathan N (2017) Carbohydr Polym 174:352–359
Apjok R, Cozmuta AM, Peter A, Cozmuta LM, Nicula C, Baia M, Vulpoi A (2019) Cellulose 26:1923–1946
Shruthy R, Preetha R (2019) Appl Surf Sci 484:1274–1281
Mi** L, Kwona H, Kima D, Seoa J, Hanb H, Khan SB (2015) Prog Organ Coat 85:68–75
Frone AN, Nicolae CA, Gabor RA, Panaitescu DM (2015) Polym Degrad Stab 121:385–397
Ortiz CM, Salgado PR, Dufresne A, Maur AN (2018) Food Hydrocoll 79:416–427
Cazón P, Vázquez M, Velazquez G (2018) Int J Biol Macromol 117:235–246
Virtanen S, Vartianen J, Setala H, Tammelin T, Vuoti S (2014) RSC Adv 4:11343
Chena D, Lawtona D, Thompsona MR, Liub Q (2012) Carbohydr Polym 90:709–716
Montes S, Carrasco PM, Ruiz V, Cabanero G, Grande HJ, Labidi J, Odriozola I (2015) Compos Sci Technol 17:26–31
Spagnol C, Fragal EH, Witt MA, Follmann HDM, Silva R, Rubira AF (2018) Carbohydr Polym 191:25–34
Menon MP, Selvakumar R, Kumar PS, Ramakrishna S (2017) RSC Adv 7:42750–42773
Noshirvani N, Hong W, Ghanbarzadeh B, Fasihi H, Montazami R (2018) Int J Biol Macromol 107(B):2065–2074
Virtanen S, Vuoti S, Lahtinen HH (2014) Cellulose 21:3561–3571
Shukla SK, Deshpande SR, Shukla SK, Tiwari A (2012) Talanta 99:283–287
Gupta AP, Agrawal H, Shukla SK, Bhardwaj VR (2004) J Indian Chem Technol 11:500–503
Wang HJ, Jo YH, An DS, Rhim JW, Lee DS (2010) J Food Eng 98:207–213
Gao Y, Guo X, Liu Y, Fang Z, Zhang M, Zhang R, You L, Li T, Liu RH (2018) Sci Rep 8:10482
Oliveira JP, Bruni GP, Lima KO, Halal SLME, Rosa GSD, Dias ARG, Zavareze EDR (2017) Food Chem 221:153–160
Alemdar A, Sain M (2008) Compos Sci Technol 68(2):557–565
Rosa SML, Rehman N, de Miranda MIG, Nachtigall SMB, Bica CID (2012) Carbohydr Polym 87:1131–1138
Johara N, Ahmada I, Dufresnec A (2012) Ind Crops Prod 37:93–99
Tanpichai S, Oksman K (2018) J Appl Polym Sci 135:45710
Zhou YM, Fu SY, Zheng LM, Zhan HY (2012) Express Polym Lett 6:794–804
Pereira ALS, Nascimento DM, Souza Filho MM, Morais JPS, Vasconcelos NF, Feitosa JPA, Brígida AIS, Rosa MF (2014) Carbohydr Polym 112:165–172
Spagnol C, Fragal EH, Witt MA, Follmann HDM, Silva R, Rubira AF (2018) Carbohydr Polym 191:25–34
Dai H, Huang Y, Huang H (2018) Carbohydr Polym 185:1–11
Song M, Yu H, Gu J, Ye S, Zhou Y (2018) Int J Biol Macromol 113:171–178
Shen D, Liu J, Gan L, Huang N, Long M (2017) J Polym Environ 26(6):2234–2242
Guo W, Liu J, Zhang P, Song L, Wang X, Hu Y (2018) Compos Sci Technol 158:128–136
Wang Z, Qiao X, Sun K (2018) Carbohydr Polym 197:442–450
Janjarasskul T, Suppakul P (2017) Crit Rev Food Sci Nutr 58(5):808–831
Vilela C, Kurek M, Hayouka Z, Röcker B, Yildirim S, Antunes MDC, Freire CSR (2018) Trends Food Sci Technol 80:212–222
Holck AL, Pettersen MK, Moen MH, Sørheim O (2014) J. Food Protect 7:1052–1240
Chowdhury MA (2014) Int J Biol Macromol 65:136–147
Acknowledgements
The authors are thankful to University of Delhi for financial assistance under the University of Delhi Innovation Project Scheme-2015 (Project Code BCAS307).
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Shukla, S.K., Rizwana, Bharadvaja, A. et al. Micro-cellulose Sheet and Polyvinyl Alcohol Blended Film for Active Packaging. Chemistry Africa 2, 723–732 (2019). https://doi.org/10.1007/s42250-019-00088-5
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s42250-019-00088-5