Sintesis Hibrid Hidrogel Dari N-Suksinil Kitosan dan Pati Dialdehid
LAMPIRAN
Universitas Sumatera Utara
Lampiran 1. Lampiran Perhitungan Derajat Oksidasi (DO) Pati Dialdehid
4. Pembuatan larutan baku : Asam Oksalat 0,1N.
N
=
0,1 N =
����� ���� �������
�����
100�63
����
Massa = 0,63 ���� ����� 100�� ��������.
5. Pembuatan larutan NaOH 0,1 N.
M
=
0,1
=
����� 1000
��
�����
40
x
250
�4
Massa = 1 ���� ����� 250 �� ��������.
6. Penentuan Konsentrasi NaOH.
V1 = 5,2 ml
V2 = 5,4 ml
V3 = 5,2 ml
Vrata-rata = (5,2 + 5,4 + 5,2)ml/3 = 15,26 ml
V1 x N1
=
V2 x N2
5,26ml x N1
=
5ml x 0,10005364 N
N1
=
0,0951 N
Universitas Sumatera Utara
7. Penentuan Konsentrasi HCl.
BE NA2CO3 = ½ x Mr nya
= ½ x 124
= 62
Massa Na2CO3 = 150 mg
�����
N==
�� � �������
V1 = 17 ml, N1 = 0,1423 N
V2 = 17,2 ml, N2 = 0,1406 N
V3 = 17,2 ml, N3 = 0,1406 N
Nrata-rata = 0,1411 N
=
%DOs
=
(����������� −��������� )
�
�162 �
× 100%
(0,0951�0,013 − 0,1411 �0.01)
× 100%
0,00061
= 28,63%
Lampiran 2. Lampiran Perhitungan Kadar Karbonil Pati Dialdehid
%COH
= 0.118 � 0.028 �(�������� − �������)� 100%
= 0.118 � 0.028 �(24 − 0)� 100%
= 7,92%
Lampiran 3. Lampiran Perhitungan Derajat Swelling
(��−�� )
% Swelling Ratio = �
� × 100%
��
1. 9:1
% Swelling Ratio =
�
(10,39−10,24)
�
(13,83−13,77)
10,39
� × 100%
= 1,44%
2. 7:3
% Swelling Ratio =
13,83
= 0,43%
� × 100%
Universitas Sumatera Utara
3. 5:5
% Swelling Ratio =
�
(11,53−11,51)
�
(11,78−11,75)
�
(11,83−11,79)
11,53
= 0,17%
� × 100%
4. 3:7
% Swelling Ratio =
11,78
= 0,25%
� × 100%
5. 1:9
% Swelling Ratio =
11,83
= 0,33%
� × 100%
Universitas Sumatera Utara
Lampiran 4. Lampiran Gambar Hibrid Hidrogel NSK-PDA
1. 9:1
2. 7:3
3. 5:5
Universitas Sumatera Utara
4. 3:7
5. 1:9
Universitas Sumatera Utara
Universitas Sumatera Utara
Lampiran 1. Lampiran Perhitungan Derajat Oksidasi (DO) Pati Dialdehid
4. Pembuatan larutan baku : Asam Oksalat 0,1N.
N
=
0,1 N =
����� ���� �������
�����
100�63
����
Massa = 0,63 ���� ����� 100�� ��������.
5. Pembuatan larutan NaOH 0,1 N.
M
=
0,1
=
����� 1000
��
�����
40
x
250
�4
Massa = 1 ���� ����� 250 �� ��������.
6. Penentuan Konsentrasi NaOH.
V1 = 5,2 ml
V2 = 5,4 ml
V3 = 5,2 ml
Vrata-rata = (5,2 + 5,4 + 5,2)ml/3 = 15,26 ml
V1 x N1
=
V2 x N2
5,26ml x N1
=
5ml x 0,10005364 N
N1
=
0,0951 N
Universitas Sumatera Utara
7. Penentuan Konsentrasi HCl.
BE NA2CO3 = ½ x Mr nya
= ½ x 124
= 62
Massa Na2CO3 = 150 mg
�����
N==
�� � �������
V1 = 17 ml, N1 = 0,1423 N
V2 = 17,2 ml, N2 = 0,1406 N
V3 = 17,2 ml, N3 = 0,1406 N
Nrata-rata = 0,1411 N
=
%DOs
=
(����������� −��������� )
�
�162 �
× 100%
(0,0951�0,013 − 0,1411 �0.01)
× 100%
0,00061
= 28,63%
Lampiran 2. Lampiran Perhitungan Kadar Karbonil Pati Dialdehid
%COH
= 0.118 � 0.028 �(�������� − �������)� 100%
= 0.118 � 0.028 �(24 − 0)� 100%
= 7,92%
Lampiran 3. Lampiran Perhitungan Derajat Swelling
(��−�� )
% Swelling Ratio = �
� × 100%
��
1. 9:1
% Swelling Ratio =
�
(10,39−10,24)
�
(13,83−13,77)
10,39
� × 100%
= 1,44%
2. 7:3
% Swelling Ratio =
13,83
= 0,43%
� × 100%
Universitas Sumatera Utara
3. 5:5
% Swelling Ratio =
�
(11,53−11,51)
�
(11,78−11,75)
�
(11,83−11,79)
11,53
= 0,17%
� × 100%
4. 3:7
% Swelling Ratio =
11,78
= 0,25%
� × 100%
5. 1:9
% Swelling Ratio =
11,83
= 0,33%
� × 100%
Universitas Sumatera Utara
Lampiran 4. Lampiran Gambar Hibrid Hidrogel NSK-PDA
1. 9:1
2. 7:3
3. 5:5
Universitas Sumatera Utara
4. 3:7
5. 1:9
Universitas Sumatera Utara