FACIAL MASK SYNTHESIS FROM RICE HUSK NANOCELLULOSE AND IVY NANOPARTICLES AS UV PROTECTION

The use of UV Protection products that circulate in the community today can endanger human health. The use of rice husk waste which has high cellulose content and ivy nanoparticles that have properties that can protect the skin from sunlight can be used as a face mask that can protect the skin from...

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Main Author:	Bayu Pramudhito dan Andi Waluyo, Benedictus
Format:	Final Project
Language:	Indonesia
Online Access:	https://digilib.itb.ac.id/gdl/view/41815
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Institution:	Institut Teknologi Bandung
Language:	Indonesia

id	id-itb.:41815
spelling	id-itb.:418152019-09-03T15:02:55ZFACIAL MASK SYNTHESIS FROM RICE HUSK NANOCELLULOSE AND IVY NANOPARTICLES AS UV PROTECTION Bayu Pramudhito dan Andi Waluyo, Benedictus Indonesia Final Project nanocellulose, facial mask, hydrogel, acid hydrolysis, ivy nanoparticles INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/41815 The use of UV Protection products that circulate in the community today can endanger human health. The use of rice husk waste which has high cellulose content and ivy nanoparticles that have properties that can protect the skin from sunlight can be used as a face mask that can protect the skin from UV exposure. The advantages of hydrogel masks are high humidity and safe for health. Hydrogel masks are produced from the synthesis of rice husk nanocellulose using the acid hydrolysis method, then hydrogel films are made using nanocellulose mixed with chitosan and ivy nanoparticles. The hydrogel film obtained was tested by swelling test to demonstrate the ability of the films to absorb and store water in its structure. Then, characterization tests were performed using TEM to determine the morphology of nanocellulose, SEM to observe the morphology and structure of the surface of the films formed, FTIR for the analysis of the functional groups contained, and UV-Vis spectroscopy for the analysis of anti UV properties in the hydrogel films. The morphology of nanocellulose is in form of fiber with the size of 16-50 nm. Chitosan-Nanocellulose (CH-CN), Chitosan-Nanocellulose-Ivy 0,25% (CH-CN-Ivy 0,25%), and Chitosan-Nanocellulose -Ivy (CH-CN-Ivy 0,5%) films have swelling degrees respectively 82,8%, 79,33%, and 72,81%. UV-Vis characterization carried out on both CH-CN-Ivy samples showed that ivy had a unique peak which showed peak ivy absorbance against UV light in the long range of UV rays (range 280-315 nm) with the absorbance of 0,814 for CH-CN-Ivy 0,25% film and 0,867 for CH-CN-Ivy 0,5% film. It can be concluded from data from the research that the three hydrogel films have swelling ability. Both CH-CN-Ivy films have anti UV properties. text
institution	Institut Teknologi Bandung
building	Institut Teknologi Bandung Library
continent	Asia
country	Indonesia Indonesia
content_provider	Institut Teknologi Bandung
collection	Digital ITB
language	Indonesia
description	The use of UV Protection products that circulate in the community today can endanger human health. The use of rice husk waste which has high cellulose content and ivy nanoparticles that have properties that can protect the skin from sunlight can be used as a face mask that can protect the skin from UV exposure. The advantages of hydrogel masks are high humidity and safe for health. Hydrogel masks are produced from the synthesis of rice husk nanocellulose using the acid hydrolysis method, then hydrogel films are made using nanocellulose mixed with chitosan and ivy nanoparticles. The hydrogel film obtained was tested by swelling test to demonstrate the ability of the films to absorb and store water in its structure. Then, characterization tests were performed using TEM to determine the morphology of nanocellulose, SEM to observe the morphology and structure of the surface of the films formed, FTIR for the analysis of the functional groups contained, and UV-Vis spectroscopy for the analysis of anti UV properties in the hydrogel films. The morphology of nanocellulose is in form of fiber with the size of 16-50 nm. Chitosan-Nanocellulose (CH-CN), Chitosan-Nanocellulose-Ivy 0,25% (CH-CN-Ivy 0,25%), and Chitosan-Nanocellulose -Ivy (CH-CN-Ivy 0,5%) films have swelling degrees respectively 82,8%, 79,33%, and 72,81%. UV-Vis characterization carried out on both CH-CN-Ivy samples showed that ivy had a unique peak which showed peak ivy absorbance against UV light in the long range of UV rays (range 280-315 nm) with the absorbance of 0,814 for CH-CN-Ivy 0,25% film and 0,867 for CH-CN-Ivy 0,5% film. It can be concluded from data from the research that the three hydrogel films have swelling ability. Both CH-CN-Ivy films have anti UV properties.
format	Final Project
author	Bayu Pramudhito dan Andi Waluyo, Benedictus
spellingShingle	Bayu Pramudhito dan Andi Waluyo, Benedictus FACIAL MASK SYNTHESIS FROM RICE HUSK NANOCELLULOSE AND IVY NANOPARTICLES AS UV PROTECTION
author_facet	Bayu Pramudhito dan Andi Waluyo, Benedictus
author_sort	Bayu Pramudhito dan Andi Waluyo, Benedictus
title	FACIAL MASK SYNTHESIS FROM RICE HUSK NANOCELLULOSE AND IVY NANOPARTICLES AS UV PROTECTION
title_short	FACIAL MASK SYNTHESIS FROM RICE HUSK NANOCELLULOSE AND IVY NANOPARTICLES AS UV PROTECTION
title_full	FACIAL MASK SYNTHESIS FROM RICE HUSK NANOCELLULOSE AND IVY NANOPARTICLES AS UV PROTECTION
title_fullStr	FACIAL MASK SYNTHESIS FROM RICE HUSK NANOCELLULOSE AND IVY NANOPARTICLES AS UV PROTECTION
title_full_unstemmed	FACIAL MASK SYNTHESIS FROM RICE HUSK NANOCELLULOSE AND IVY NANOPARTICLES AS UV PROTECTION
title_sort	facial mask synthesis from rice husk nanocellulose and ivy nanoparticles as uv protection
url	https://digilib.itb.ac.id/gdl/view/41815
_version_	1822926094410448896

FACIAL MASK SYNTHESIS FROM RICE HUSK NANOCELLULOSE AND IVY NANOPARTICLES AS UV PROTECTION

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