Pasti kita sudah tidak asing lagi dengan pemanasan global. Produksi berlebih gas rumah kaca seperti CH4, CO2, dan N20, menyebabkan terjadinya perubahan iklim yang secara langsung mengakibatkan distribusi air menjadi sulit diprediksi sehingga dapat menyebabkan kekeringan di lahan pertanian. Alternatif lain peningkatan efisiensi penggunaan irigasi pada lahan adalah dengan aplikasi teknologi polimer. Kira-kira jenis polimer apa sih yang mampu menyerap dan melepas air tersebut?
Daripada makin penasaran, mari simak sepikul berikut!
Dibuat oleh:Dzaki Hisyam AmdaniAndhika Rakha Wisnu Madyana
Muhammad Fakhri Afzaal H.
Putri Rizka Kamila
Marrisa Anjani Maheswari T.
Ringgy Etika Titi J.
Sumber:1. Aouada, F.A., Moura, M.R.d. and Mattoso, L.H.C. 2011. Biodegradable Hydrogel as Delivery Vehicle for the Controlled Release of Pesticide. Pesticides – Formulations, Effects, Fate. Stoytcheva, M., InTech: 808.2. Jhurry, D. 1997. Agricultural Polymers. Conference Proceedings of the 2nd annual meeting of Agricultural Scientists, Mauritius.3. Ostrowska-Czubenko, J. and Gierszewska-Drużyńska, M. 2009. Effect of ionic crosslinking on the water state in hydrogel chitosan membranes. Carbohydrate Polymers 77(3): 590.4. Sannino, A., Demitri, C. and Madaghiele, M. 2009. Biodegradable Cellulose-based Hydrogels: Design and Applications. Materials 2: 353.5. Sojka, R.E., Entry, J.A., Orts, W.I., Modshita, D.W., Ross, C.W. and Horne, D. 2005. Synthetic- and bio-polymer use for runoff water quality management in irrigated agriculture. Water Science and Technology, USDA 51: 107.6. Zamani, A., Henriksson, D. and Taherzadeh, M.J. 2010. A new foaming technique for production of superabsorbents from carboxymethyl chitosan. Carbohydrate Polymers 80(4): 1091.
Teknik Kimia! Jaya!
#HMTK2022#CakraBaskara
Daripada makin penasaran, mari simak sepikul berikut!
Dibuat oleh:Dzaki Hisyam AmdaniAndhika Rakha Wisnu Madyana
Muhammad Fakhri Afzaal H.
Putri Rizka Kamila
Marrisa Anjani Maheswari T.
Ringgy Etika Titi J.
Sumber:1. Aouada, F.A., Moura, M.R.d. and Mattoso, L.H.C. 2011. Biodegradable Hydrogel as Delivery Vehicle for the Controlled Release of Pesticide. Pesticides – Formulations, Effects, Fate. Stoytcheva, M., InTech: 808.2. Jhurry, D. 1997. Agricultural Polymers. Conference Proceedings of the 2nd annual meeting of Agricultural Scientists, Mauritius.3. Ostrowska-Czubenko, J. and Gierszewska-Drużyńska, M. 2009. Effect of ionic crosslinking on the water state in hydrogel chitosan membranes. Carbohydrate Polymers 77(3): 590.4. Sannino, A., Demitri, C. and Madaghiele, M. 2009. Biodegradable Cellulose-based Hydrogels: Design and Applications. Materials 2: 353.5. Sojka, R.E., Entry, J.A., Orts, W.I., Modshita, D.W., Ross, C.W. and Horne, D. 2005. Synthetic- and bio-polymer use for runoff water quality management in irrigated agriculture. Water Science and Technology, USDA 51: 107.6. Zamani, A., Henriksson, D. and Taherzadeh, M.J. 2010. A new foaming technique for production of superabsorbents from carboxymethyl chitosan. Carbohydrate Polymers 80(4): 1091.
Teknik Kimia! Jaya!
#HMTK2022#CakraBaskara