MSE 404

Spring 2024 Part of Term A

Part of Term A
Jan 16-Mar 8
Laboratory Studies in Materials Science and Engineering

Credit: 1.5 hours.

Experiments include direct hands-on investigations or are performed through computational approaches. Laboratory experiences include both fundamental studies as well as investigations on more applied topics.

1.5 undergraduate hours. 1.5 graduate hours. May be repeated if topics vary. Prerequisite: MSE 307 and MSE 308 or permission of instructor. Senior standing.

Section Status updates every 10 minutes.
MSE 404 class schedule data for spring 2024
CRN Type Section Time Day Location Instructor Section Details
65482
Laboratory
BS1
2:00PM -4:50PM
MW
218 Ceramics Kiln House
Feng, Y
Gabrielson, N
Part of Term:
A
Date Range:
01/16/24-03/08/24
Section Title:
Biomaterials Synthesis & Prop
Section Info:
Subjects covered in lab: PLGA microsphere formulation; controlled release drug delivery; collagen extraction and purification from bovine skin; collagen sponge scaffold fabrication and characterization; hydroxyapatite/fluorapatite scaffold fabrication and characterization. Desired background: chemistry/biochemistry.
Restriction(s):
Restricted to students in the Materials Science & Engineerng department.
65483
Laboratory
BS2
2:00PM -4:50PM
TR
218 Ceramics Kiln House
Feng, Y
Gabrielson, N
Part of Term:
A
Date Range:
01/16/24-03/08/24
Section Title:
Biomaterials Synthesis & Prop
Section Info:
Subjects covered in lab: PLGA microsphere formulation; controlled release drug delivery; collagen extraction and purification from bovine skin; collagen sponge scaffold fabrication and characterization; hydroxyapatite/fluorapatite scaffold fabrication and characterization. Desired background: chemistry/biochemistry.
Restriction(s):
Restricted to students in the Materials Science & Engineerng department.
65484
Laboratory
BS3
8:00AM -10:50AM
TR
218 Ceramics Kiln House
Feng, Y
Gabrielson, N
Part of Term:
A
Date Range:
01/16/24-03/08/24
Section Title:
Biomaterials Synthesis & Prop
Section Info:
Subjects covered in lab: PLGA microsphere formulation; controlled release drug delivery; collagen extraction and purification from bovine skin; collagen sponge scaffold fabrication and characterization; hydroxyapatite/fluorapatite scaffold fabrication and characterization. Desired background: chemistry/biochemistry.
Restriction(s):
Restricted to students in the Materials Science & Engineerng department.
71507
Laboratory
LD1
2:00PM -4:50PM
MW
204 Ceramics Kiln House
Shim, M
Tian, Y
Part of Term:
A
Date Range:
01/16/24-03/08/24
Section Title:
Low Dimensional Electronics
Section Info:
Exploration of emerging materials of reduced dimensionality through hands-on experiments. Students learn to handle/process atomically thin materials such as graphene, fabricate field-effect transistors from these materials, and carry out various means of characterization including electrical, Raman, and optical measurements. In addition, effects of external stimuli (e.g., mechanical and chemical) on electrical characteristics are also examined.
Restriction(s):
Restricted to students in the Materials Science & Engineerng department.
71508
Laboratory
LD2
2:00PM -4:50PM
TR
204 Ceramics Kiln House
Shim, M
Tian, Y
Part of Term:
A
Date Range:
01/16/24-03/08/24
Section Title:
Low Dimensional Electronics
Section Info:
Exploration of emerging materials of reduced dimensionality through hands-on experiments. Students learn to handle/process atomically thin materials such as graphene, fabricate field-effect transistors from these materials, and carry out various means of characterization including electrical, Raman, and optical measurements. In addition, effects of external stimuli (e.g., mechanical and chemical) on electrical characteristics are also examined.
Restriction(s):
Restricted to students in the Materials Science & Engineerng department.
75838
Laboratory
QM1
2:00PM -4:50PM
MW
215N Ceramics Building
Cahill, D
Zhao, J
Part of Term:
A
Date Range:
01/16/24-03/08/24
Section Title:
Quantum Materials
Section Info:
Module 1: Optically detected magnetic resonance for magnetic field sensing. In this lab module, students will study the optical properties of the negatively charged nitrogen-vacancy (NV-) color center in diamond and use continuous-wave and pulsed optically detected magnetic resonance to sense magnetic fields.
Restriction(s):
Restricted to students in the Materials Science & Engineerng department.
75839
Laboratory
QM2
2:00PM -4:50PM
TR
215N Ceramics Building
Cahill, D
Zhao, J
Part of Term:
A
Date Range:
01/16/24-03/08/24
Section Title:
Quantum Materials
Section Info:
Module 1: Optically detected magnetic resonance for magnetic field sensing. In this lab module, students will study the optical properties of the negatively charged nitrogen-vacancy (NV-) color center in diamond and use continuous-wave and pulsed optically detected magnetic resonance to sense magnetic fields.
Restriction(s):
Restricted to students in the Materials Science & Engineerng department.
75840
Laboratory
QM3
8:00AM -10:50AM
TR
215N Ceramics Building
Cahill, D
Zhao, J
Part of Term:
A
Date Range:
01/16/24-03/08/24
Section Title:
Quantum Materials
Section Info:
Module 1: Optically detected magnetic resonance for magnetic field sensing. In this lab module, students will study the optical properties of the negatively charged nitrogen-vacancy (NV-) color center in diamond and use continuous-wave and pulsed optically detected magnetic resonance to sense magnetic fields.
Restriction(s):
Restricted to students in the Materials Science & Engineerng department.
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