Agenda

Monday, January 13, 2025

8:30 – 9:00 am Check in Phys 118

Lectures (Phys127)

9:00 – 9:10 am Introduction

9:10 – 9:55 am Introduction to binary and ternary phase diagrams (Halyna Hodovanets) 

10:10 – 11:15 am X-ray diffraction (Alexey Yamilov/Amitava Choudhury) 

11:20 am – 12:05 pm Computational modeling/band structure (Julia Medvedeva) 

12:05 – 12:15 pm Lab safety

12:15-1:15 pm Lunch and Group picture (Phys 208)

Practicals

1:15- 3:05 pm Practical  A

  1. Single crystal growth using high temperature flux (Jayashani Wickramasinghe, Phys G2)
  2. X-ray diffraction (Halyna Hodovanets, Phys G15)
  3. Electrocatalytic application for quantum materials (Manashi Nath, Chemistry)
  4. Computational modeling of quantum materials (Aleksandr Chernatyskiy,, Phys 128)

3:10-5:00 pm Practical B

  1. Single crystal growth using high temperature flux (Jayashani Wickramasinghe, Phys G2)
  2. X-ray diffraction and transport measurements (Halyna Hodovanets, Phys G15)
  3. Electrocatalytic application for quantum materials (Manashi Nath, Chemistry)
  4. Computational modeling of quantum materials (Aleksandr Chernatyskiy,, Phys 128)

5:10 – 6:30 pm Dinner (Phys 208)

Tuesday, January 14, 2025

Lectures (Phys 127)

8:30-9:15 am Different crystal growth techniques (Yew Sun Hor)

9:20-10:05 am Nanomaterials (Manashi Nath)

10:20-11:05 am Characterization techniques (Hyunsoo Kim)

11:05 am -12:15 pm Physics Lab tour

12:15-1:15 pm Lunch (Phys 208)

Practicals

1:15- 3:05 pm Practical  C

  1. Single crystal growth using high temperature flux (Jayashani Wickramasinghe, Phys G2)
  2. X-ray diffraction (Halyna Hodovanets, Phys G15)
  3. Electrocatalytic application for quantum materials (Manashi Nath, Chemistry)
  4. Computational modeling of quantum materials (Aleksandr Chernatyskiy, Phys 128)

3:10-5:00 pm Practical D

  1. Single crystal growth using high temperature flux (Jayashani Wickramasinghe, Phys G2)
  2. X-ray diffraction and transport measurements (Halyna Hodovanets, Phys G15)
  3. Electrocatalytic application for quantum materials (Manashi Nath, Chemistry)
  4. Computational modeling of quantum materials (Aleksandr Chernatyskiy, Phys 128)

5:10  – 6:30 pm Dinner and closing remarks (Phys 208)