Course Module

Department of Agricultural Engineering Faculty of Agricultural Technology Universitas Brawijaya

Module name Biomaterial

Module level Undergraduate program

Code TPF61012

Subtitle -

Courses -

Semester(s) 3

Person responsible for the module

Yusuf Wibisono, STP, MSc., Ph.D Lecturer 1. Yusuf Wibisono, STP, MSc., Ph.D

2. Nur Istianah, ST., MT., M.Eng 3. Dina Wahyu Indriani, STP., MSc.

4. Dego Yusa Ali, STP., MSc.

5. Latifa Putri Aulia, STP., MSc.

Language Bahasa Indonesia, English Relation to curriculum Compulsory/elective Type of teaching,

contact hours

Contact hours and class size separately for each teaching method:

lecture, lesson, exercise, assignment, practical etc

Workload 110,5 hours/semester

Lecture, Exercise, Laboratory session, and private study Credit points 3 SKS / 5,1 ECTS

Requirements according to the examination regulations

-

Recommended prerequisites

- Module

objectives/intended learning outcomes

ILO-2: To formulate and operate conversion processes of biological resources into bio-based value added materials related to food, feed, fuels, pharmaceutical, nutraceutical, biomaterials or biochemicals.

ILO-3: To design biological reaction and reactors including its materials, instrumentation, control, and modeling.

ILO-1: To acquire a sound knowledge in mathematics and natural science and apply engineering principles in determining and solving contemporary and complex problems related to the bioprocess field.

Objectives

Knowledge: familiarity with definition of biomateria, bioproduct, the classification and characteristics, also its application in bioprocess field.

Skills:

Competences:

Content Lecture:

1. Introduction: Definition of biomaterials (comparison of biosystems and medical fields), examples and their potential in Indonesia 2. Classification, structure and properties of biomaterials

3. Characterization of the biological properties (biocompatibility) of biomaterials

4. Characterization of the physical and chemical properties of biomaterials

5. The structure and properties of biometal and bioceramic 6. Structure and properties of biopolymers and bioplastics

7. Application of biomaterials for anti-biofouling, biosensors, drug delivery and bioseparations

8. Application of biomaterials for biomethane, biohydrogen, bioethanol and biodiesel

Laboratory Practice:

1. Introduction to K3 and its tools

2. Characterization of various types of biomaterials (Biopolymers, Biometals, Biocomposites, Bioceramic)

3. Synthesis of biopolymers and bioplastics

4. Characterization of the physical and chemical properties of biopolymers and bioplastics

5. Determination of biopolymers and bioplastics degradation time 6. Fabrication of poly-SPMA coating on polyethylene sheet material 7. Testing of Poly-SPMA on Polyethylene sheet material with Eschericia

coli

8. Testing of Poly-SPMA on Polyethylene sheet material with Chlorela vulgaris microalgae

Study and examination requirements and forms of examination

1. Midterm exam 2. Final term exam 3. Quiz

4. Assignment

5. Laboratory Practice Report 6. Laboratory Practice Final Exam How to score:

Midterm Exam = Final Exam = Assignment = 10%

Quiz = 10%

Laboratory Practice = 25%

How to score:

Midterm Exam = Final Exam = Assignment = 20%

A : 80<Final Score≤100 B+ : 75< Final Score ≤80 B : 69< Final Score ≤75 C+ : 60< Final Score ≤69 C : 55< Final Score ≤60 D : 50 < Final Score ≤55 D+ : 44< Final Score ≤50 E : 0< Final Score ≤44

Media employed Class, Online learning system (Zoom and Google Classroom).

Reading list 1. Ratner, B.D. et al. , 2013. Biomaterials Science: An Introduction to Materials in Medicine (3rd Edition). Academic Press.

2. Ayoub, A.S. and Lucia, L.A., 2017. Introduction to Renewable Biomaterils: First Principles and Concepts. Wiley

3. Bastidas-Oyadenel, J. R. et al., 2019. Biorefinery: Integrated Sustainable Processes for Biomass Conversion to Biomaterials, Biofuels, and Fertlilizers. Springer.

4. Wibisono, Y. 2016. Biomaterial dan Bioproduk. UB Press