Timeroom: Spring 2022

Displaying 91 - 100 of 1128 Results for: Level = All Graduate

BIOT 866 (M1) - Protein and Immunological Techniques

Protein Techniques

Credits: 3.0
Term: Spring 2022 - UNHM Credit (15 weeks) (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   9  
CRN: 55372
Laboratory course focused on application of molecular biology techniques of the isolation, quantitation, detection, analysis, and use of proteins. Substantial emphasis will be on the use of immunoassays and antibodies in protein work. Modern proteomics techniques will also be discussed. Emphasis will be on recombinant protein expression in the field of biotechnology. Special Fee.
Section Comments: Cross listed with BIOT 766
Only listed majors in section: BIOTECH IBMS
Instructors: Won Hyuk Suh
Start Date End Date Days Time Location
1/25/2022 5/9/2022 MW 9:01am - 10:30am PANDRA P502

BIOT 870 (LM1) - Stem Cell and Biomaterials Engineering Laboratory

Stem Cell & Biomaterials Lab

Credits: 0.0
Term: Spring 2022 - UNHM Credit (15 weeks) (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   4  
CRN: 56959
Introduction to stem cells and how biomaterials are utilized in their applications involving biotechnology and biomedical engineering. Lab topics such as aseptic technique, stem cell cultures, biomaterials engineering, bioprinting, biocompatibility and bioactivity analyses will be covered. Lectures will focus on the current literature while the lab portion involves inquiry-based projects that will investigate how biomaterials and molecules modulate stem cell proliferation and differentiation.
Section Comments: Cross listed with BIOT 770. Also meets in Rm. 584
Only listed majors in section: BIOTECH IBMS
Instructors: Won Hyuk Suh
Start Date End Date Days Time Location
1/25/2022 5/9/2022 MW 3:31pm - 5:50pm PANDRA P650EC

BIOT 870 (M1) - Stem Cell and Biomaterials Engineering Laboratory

Stem Cell & Biomaterials Lab

Credits: 3.0
Term: Spring 2022 - UNHM Credit (15 weeks) (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   4  
CRN: 56958
Introduction to stem cells and how biomaterials are utilized in their applications involving biotechnology and biomedical engineering. Lab topics such as aseptic technique, stem cell cultures, biomaterials engineering, bioprinting, biocompatibility and bioactivity analyses will be covered. Lectures will focus on the current literature while the lab portion involves inquiry-based projects that will investigate how biomaterials and molecules modulate stem cell proliferation and differentiation.
Section Comments: Cross listed with BIOT 770
Only listed majors in section: BIOTECH IBMS
Instructors: Won Hyuk Suh
Start Date End Date Days Time Location
1/25/2022 5/9/2022 MW 2:01pm - 3:30pm PANDRA P502

BIOT 891 (M1) - Applied Research

Applied Research

Credits: 3.0 to 6.0
Term: Spring 2022 - UNHM Credit (15 weeks) (01/25/2022 - 05/09/2022)
Grade Mode: Graduate Credit/Fail grading
Class Size:   10  
CRN: 56913
The applied research experience enhances the student's academic achievements with real-world, professional industry projects through placement at biopharma industry organizations. The student is expected to apply knowledge and skills acquired through other coursework in the major to address and solve new, authentic problems identified by the employer. Under the direction of a faculty advisor and workplace supervisor, the student is expected to contribute effectively within a team at the organization.
Instructor permission required.
Repeat Rule: May be repeated for a maximum of 6 credits.
Only listed majors in section: BIOTECH IBMS
Instructors: Kristen Johnson
Start Date End Date Days Time Location
1/25/2022 5/9/2022 Hours Arranged TBA

BIOT 892 (M1) - Graduate Internship

Graduate Internship

Credits: 3.0 to 6.0
Term: Spring 2022 - UNHM Credit (15 weeks) (01/25/2022 - 05/09/2022)
Grade Mode: Graduate Credit/Fail grading
Class Size:   10  
CRN: 56914
The internship experience enhances the student's academic achievements with real-world, professional industry projects through placement at biopharma industry organizations. The student is expected to apply knowledge and skills acquired through other coursework in the major to address and solve new, authentic problems identified buy the internship employer. Under the direction of a faculty advisor and workplace supervisor, the student is expected to contribute effectively within a team at the organization.
Instructor permission required.
Repeat Rule: May be repeated for a maximum of 6 credits.
Only listed majors in section: BIOTECH IBMS
Instructors: Kristen Johnson
Start Date End Date Days Time Location
1/25/2022 5/9/2022 Hours Arranged TBA
Additional Course Details: 

Registering for academic credit does not complete your required internship approval process. Students must register and “request an experience” in the UNH online platform of Handshake once they have their internship. Visit https://app.joinhandshake.com/experiences/new to complete your approval process.

For more information on how to complete the Handshake approval process visit, https://manchester.unh.edu/student-internships or contact the UNH Manchester Career and Professional Success (CaPS) Office with questions.

BIOT 893 (M1) - Directed Graduate Research

Directed Graduate Research

Credits: 3.0 to 6.0
Term: Spring 2022 - UNHM Credit (15 weeks) (01/25/2022 - 05/09/2022)
Grade Mode: Graduate Credit/Fail grading
Class Size:   10  
CRN: 56915
The research project experience enhances the student's academic achievements with a project-based experience in an academics lab. The student is expected to apply knowledge and skills acquired through other coursework in the major to address and solve new, authentic basic or applied science questions under the direction of a faculty advisor. The student is expected to contribute effectively within a lab team.
Instructor permission required.
Repeat Rule: May be repeated for a maximum of 6 credits.
Only listed majors in section: BIOTECH IBMS
Instructors: STAFF
Start Date End Date Days Time Location
1/25/2022 5/9/2022 Hours Arranged TBA

BIOT 895 (M1) - Graduate Co-op Experience

Graduate Co-op Experience

Credits: 5.0 to 10.0
Term: Spring 2022 - UNHM Credit (15 weeks) (01/25/2022 - 05/09/2022)
Grade Mode: Graduate Credit/Fail grading
Class Size:   10  
CRN: 56916
This intensive internship experience enhances the student's academic achievements with real-world, professional industry projects through placement at biopharma industry organizations. The student is expected to apply knowledge and skills acquired through other coursework in the major by working in an industry setting alongside professionals to hone their technical and business skills. Under the direction of a faculty advisor and workplace supervisor, the student is expected to contribute effectively within a team at the organization.
Instructor permission required.
Only listed majors in section: BIOTECH IBMS
Instructors: Kristen Johnson
Start Date End Date Days Time Location
1/25/2022 5/9/2022 Hours Arranged TBA

BIOT 896 (M1) - Graduate Seminar in Biotechnology

Graduate Seminar in Biotech

Credits: 1.0
Term: Spring 2022 - UNHM Credit (15 weeks) (01/25/2022 - 05/09/2022)
Grade Mode: Graduate Credit/Fail grading
Class Size:   16  
CRN: 56912
The graduate seminar in biotechnology will run each semester with different topics. For example: 1) Cutting-edge issues facing the biotech industry will be encountered through case studies in order to apply what is being learned in other courses, hone communication skills, and stay up to date in the fields. 2) Instrumentation and technologies utilized in the biotechnology industry will be described through lectures, readings, and site visits to nearby facilities.
Section Comments: Cross listed with BIOT 799
Repeat Rule: May be repeated for a maximum of 3 credits.
Only listed majors in section: BIOTECH IBMS
Instructors: Kyle MacLea
Start Date End Date Days Time Location
1/25/2022 5/9/2022 R 4:01pm - 5:30pm PANDRA P503

BIOT 897 (M1) - Special Topics in Biotechnology

Top/Microphysiological Systems

Credits: 3.0
Term: Spring 2022 - UNHM Credit (15 weeks) (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   8  
CRN: 55376
This course explores and investigates advanced topics in biotechnology that would not normally be covered in other courses in the curriculum.
Section Comments: Cross listed with BSCI 797
Repeat Rule: May be repeated for a maximum of 9 credits.
Only listed majors in section: BIOTECH IBMS
Instructors: Andrew Capulli
Start Date End Date Days Time Location
1/25/2022 5/9/2022 MW 6:15pm - 7:45pm PANDRA P504
Additional Course Details: 

This course aims to provide students with both the physiological foundation and fabrication background required for designing microphysiological systems. Microphysiological systems are in vitro engineered models of tissues and organs designed to study how biology interacts with its biochemical and mechanical environments. Popularized as “Organs on Chips,” these systems have grown and diversified, and are now being commercialized for pharmaceutical testing - a rapid evolution from their laboratory-scale beginnings just over a decade ago. In this course, students will gain a scientific background of the fabrication techniques used to build microphysiological systems, from soft lithography to 3D printing. By studying distinct organs and tissues, the class will learn how to apply these fabrication techniques to specific physiology for modeling tissue behavior in vitro. Students will learn the principles necessary for engineering, assessing, and applying microphysiological systems to real-world problems. This course seeks creative and motivated students with a desire to grab the reins of this new and continually evolving field. 

Durham   Engineering&Physical Sciences :: Civil&Environmental Engnrng

CEE 824 (01) - Environmental Engineering Microbiology

Environmental Eng Microbiology

Credits: 4.0
Term: Spring 2022 - Full Term (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   3  
CRN: 53143
Concepts of environmental engineering microbiology including microbial metabolism, growth kinetics, bioremediation applications, mass transfer kinetics and effects of environmental parameters. Coursework includes reading and discussion of the microbial literature. Laboratories cover microbiological monitoring and biological treatment experiments. Prereq: CEE 620 or permission. Lab.
Equivalent(s): CIE 856
Instructors: Paula Mouser
Start Date End Date Days Time Location
1/25/2022 5/9/2022 TR 11:10am - 12:30pm GREGG 110
1/25/2022 5/9/2022 R 2:10pm - 4:00pm KING S175