Scribd
Upload
7 views2 pages

Filename

The syllabus outlines the Surface Science and Engineering course (OM2300950) for 3rd-year students, focusing on physicochemical properties of surfaces and interfaces relevant to optoelectronic devices. The course includes lectures, discussions, and evaluations through exams, presentations, and reports, with accommodations for students with disabilities. Key topics covered include atomic and molecular structure, bonding, energetic defects, and strategies for modifying surfaces.

Uploaded by

kimjb117d
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as PDF, TXT or read online on Scribd
7 views2 pages

Filename

The syllabus outlines the Surface Science and Engineering course (OM2300950) for 3rd-year students, focusing on physicochemical properties of surfaces and interfaces relevant to optoelectronic devices. The course includes lectures, discussions, and evaluations through exams, presentations, and reports, with accommodations for students with disabilities. Key topics covered include atomic and molecular structure, bonding, energetic defects, and strategies for modifying surfaces.

Uploaded by

kimjb117d
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as PDF, TXT or read online on Scribd
You are on page 1/ 2

Syllabus of 1st Semester, 2022

SURFACE SCIENCE AND


Course Title Course Code OM2300950 Section 064
ENGINEERING
Organic Material Scien Credit-Theory
Department Level 3rd year 3.0 - 3.0 - 0.0
ce & Engineering - Practice
Class Hours &
화 15:00(75) 408-5304, 목 15:00(75) 408-5304
Classroom
Office
5311 Counsel Hours E-mail contact
(Counsel room)
Lecturer Beomjin Jeong
Telephone 2481 E-mail bjjeong@pusan.ac.kr

ㆍ대면
Lesson ㆍTeacher-centered learning, Presentation- or Discussion-based
Style

Mid-term exam 40 %, Final-term presentation 25 %, Report 25 %, Attendance 10 %


Evaluation
Method * Students with disabilities can request an extension of the exam hour, and they can take exams by
getting writing assistance or by using a computer.

Competitors
General chemistry
and Knowledge

Studends will understand physicochemical properties of surfaces and interfaces and learn how to describ
e the properties in a view of thermodynamics. The lecture will introduce various strategies how to modi
Objective
fy and improve the surface and interfacial defects, which are widely utilized in optoelectronic device ap
plications
The lecture will introduce basic concepts of atomic and molecular structure, bonding and structure,
energetic defects to finally understand physicochemical properties of surfaces and interfaces. As a
potential material scientist or engineer, the students will study various material engineering strategies to
Lecture modify surfaces and interfaces, which are widely used in academia and industries.
Overview * Students with disabilities can negotiate with the Disabled Student's Academic Support Center regarding
course materials and assignments.

Course and Core competencies

Communicati Basic Higher


BNU Global Culture Convergence Application Service Personality
on Knowledge thinking
8Point Core
Competency O O

Core competencies according to subject matter

Department Core Competencies Training Method

01 Lecture delivery

04 Case study

Textbooks and References

(주교재)Physical Chemistry: Quanta, Matter and Change 2/e by Peter Atkins, Julio de Paula, Ronald
Direct Friedman
(부교재1)Please refer to lecture materials
Week Lecture Plan

Week Lesson and Lab Contents Challenges and Other Notes

[Orientation and Education on Academic Misbehavior(e.g


1 Week . Cheating, Plagiarism) and Safety Education on Experi
ment and Practice] Introduction

2 Week Atomic structure

3 Week Molecular structure

4 Week Molecular symmetry and interaction

5 Week Bonding and structure

6 Week Surfaces and interfaces

7 Week Mid-term exam

8 Week Energetic defects

9 Week Physicochemical properties of surfaces and interfaces I

10 Week Physicochemical properties of surfaces and interfaces II

Physicochemical properties of surfaces and interfaces II


11 Week
I

12 Week Surface and interfacial defects: electronic devices

13 Week Surface and interfacial defects: optoelectronic devices I

Surface and interfacial defects: optoelectronics devices


14 Week
II
15 Week
(Appointed Student presentation

16 Week Student presentation Final-term report

You might also like