TY  - CHAP
T1  - Case study of renewable bacteria cellulose fiber and biopolymer composites in sustainable design practices.
N1  - SU835733
ER  - 


TY  - JOUR
T1  - Multilayered cellulosic material as a leather alternative in the footwear industry.
Y1  - 2019//
N1  - SU835733
JF  - CLOTHING AND TEXTILES RESEARCH JOURNAL
VL  - 37
IS  - 1
SP  - 20
EP  - 34.
ER  - 


TY  - CONF
T1  - Exploring optimal solution for sustainable product development using renewable bacteria cellulose fiber and biopolymer composites.
Y1  - 014.//
N1  - SU835733
ER  - 


TY  - CONF
T1  - Consumers' acceptance of sustainable apparel products made of bacterial cellulose material.
Y1  - 016.//
N1  - SU835733
ER  - 


TY  - CONF
T1  - Improving properties of bacterial cellulose by incorporating bio-based films.
Y1  - 016.//
N1  - SU835733
ER  - 


TY  - CONF
T1  - Experimentation to improve properties of bacterial cellulose by incorporating bio-based films for apparel products.
Y1  - 017.//
N1  - SU835733
ER  - 


TY  - CONF
T1  - Multi-layered cellulosic material as a leather alternate in the footwear industry.
Y1  - 017.//
N1  - SU835733
ER  - 


TY  - CONF
T1  - Focusing on sustainable material selection for different layers of the shoe structure using cradle-to-cradle design approach into the shoe design process.
N1  - SU835733
ER  - 


TY  - CONF
T1  - Focusing on sustainable material selection for different layers of the shoe structure using cradle-to-cradle design approach into the shoe design process.
N1  - SU835733
ER  -