progress thesis ke 2_desi about NCC from cabbage

2. KEYNOTE SPEAKER:
👤 Dr.Lisman Suryanegara M.Agr.(Pusat Penelitian Biomaterial BRIN)
👤 Dr Qanitah (Balai Besar Pascapanen, Kementrian Pertanian)
👤 Athanasia Amanda Septevani S.T., Ph.D. (Pusat Penelitian Kimia BRIN)
👤 Dr. I Wayan Arnata, S.TP, M.Si (Universitas Udayana)
👤 Nanang Masruchin Ph.D. (Pusat Penelitian Biomaterial BRIN)
👤 Dr. Dewi Sartika, S.TP, M.Si (Universitas Muhamadiyah Makasar)
👤 Nurmalisa Lisdayana, S.TP, M.Si (ITERA)

3. Selulosa adalah sumber biopolymer yang
terbanyak di alam.
Nanokristal selulosa adalah material yang
terbuat dari selulosa serta berukuran nano
dengan bentuk molekulnya memanjang yakni
lebar 5-20 nm dan panjangnya 10 nm sampai
1 mikrometer.
Ilustrasi skema struktur hierarki
selulosa dalam biomassa

4. Kegunaan:
- Infrastruktur (bangunan,
jalan, dan insulator).
- Pengolahan air (adsorben,
fotokatalisis)
- Elektronik (substrat LED,
antenna, superkapasitor.
- Energi (fuel cell)
- Biomedikal (penutup luka
cerdas, diagnostic, cell
culture)
- Packaging (biofoam)
- Hidrogel (drug delivery,
diagnostic, tissue engineering,
separation.
- Nanopaper (kertas transparent)

5. 1. Pengembangan Cellulose Nanocomposite sebagai Material Bodi
Pesawat Unmanned Arial Vehicle (UAV)
Bahan Baku : wood/kayu
metode: supergrinder treatment
Ukuran: submikro dan nano

6. 2. Development of a Vehicle Using Cellulose Nanofiber Car (CNV),
next generation material
Bahan Baku : wood from the forest
Sumber: https://www.youtube.com/watch?v=06H8wP9axjU&ab_channel=kankyosho
- Intake manifolds
- AC cases
- Instrumen panel
- Plated parts
- Engine hoods
- CNF subframe
- Seat cushion

7. 3. Inovasi selulosa-nanoselulosa dari limbah alam Indonesia
Bahan Baku : TKKS dan batang sawit
Isolasi selulosa:
Proses
pembentukan
nanoselulosa
secara fisik
menggunakan high
pressure
homogenizer
dengan 20.000
rpm

8. 3. Modifikasi muatan permukaan mikro/nanoselulosa sebagai
adsorben limbah pewarna
Bahan Baku : limbah biiomassa
Isolasi nanoselulosa: hidrolisis asam sulfat

9. Produksi CNF
a. Mikrofluidisasi
b. Homogenisasi
tekanan tinggi
c. Mikro grinding
d. Ultrasonikasi
intensitas tinggi

10. 4. Ecotechnology concept for NCC production
Bahan Baku : non wood (POEFB, rice straw, cocoa shell)
metode:

11. 6. Aplikasi nanokristalin selulosa pada matriks kemasan aktif
antimikroba
Bahan Baku : kapuk
Isolasi selulosa untuk menghasilkan nanokristal selulosa menggunakan hidrolisis asam

12. No Author Metode
1. Yong Zhang, et all. 2012
reparation and Characterization of Nano Crystalline Cellulose from Bamboo Fibers by Controlled
Cellulase Hydrolysis
Chemical based (hidrolisis
menggunakan asam)
2. R.A. Ilyas, et all. 2017
Isolation and characterization of nanocrystalline cellulose from sugar palm fibres (Arenga Pinnata)
delignification and mercerization
3. Qilin Lu , et all. 2017
A mechanochemical approach to manufacturing bamboo cellulose nanocrystals
ultrasonication treatment
4. Shweta Mishra, et all. 2019
Biomass and waste materials as potential sources of nanocrystalline cellulose: Comparative review
of preparation methods (2016 – Till date)
enzymatic hydrolysis and mechanical
treatments
5. Christian J. Wijaya, et all. 2019
Optimization of cellulose nanocrystals from bamboo shoots using Response Surface Methodology
acid hydrolysis process
6. Chi Hoong Chan, et all
Production and Characterisation of Cellulose and Nano-Crystalline Cellulose from Kenaf Core Wood
Chemical based (hidrolisis
menggunakan asam)
7. Anuj Kumar, et all. 2014
Sugarcane Bagasse: A Promising Source for the Production of Nano-Cellulose
Chemical based (hidrolisis
menggunakan asam)