PGS.TS. lê văn lịch

– Giảng viên
– Tốt nghiệp Đại học Bách khoa Hà Nội
– Tiến sỹ tại Đại học Kyoto – Nhật Bản

E-mail: lich.levan@hust.edu.vn

Lĩnh vực nghiên cứu

  1. Tính chất cơ-lý của vật liệu chức năng: sắt điện, sắt từ, và đa tính sắt
  2. Cơ học phá hủy vật liệu
  3. Phát triển phương pháp mô phỏng số pha-trường (Phase-field model)

các môn học giảng dạy

  1. Cơ học vật liệu
  2. Mô hình hóa & Mô phỏng vật liệu
  3. Tự động hóa quá trình sản xuất
  4. Thiết kế chi tiết máy
  5. Phương pháp tính toán vật liệu
  6. Technical writing and presentation

Các công trình khoa học tiêu biểu

  1. Le Van Lich*, Takahiro Shimada, Koyo Nagano, Hongjun Yu, Jie Wang, Kai Huang, Takayuki Kitamura. Anomalous toughening in nanoscale ferroelectrics with polarization vortices. Acta Materialia 88, 147-155 (4/2015).
  2. Takahiro Shimada, Le Van Lich*, Koyo Nagano, Jie Wang, Takayuki Kitamura. Hierarchical ferroelectric and ferrotoroidic polarizations coexistent in nano-metamaterials. Scientific Reports, 5, 14653 (10/2015).
  3. Le Van Lich*, Takahiro shimada, Kohei Miyata, Koyo Nagano, Jie Wang, Takayuki Kitamura. Colossal magnetoelectric effect in 3-1 multiferroic nanocomposites originating from ultrafine nanodomain structures. Applied Physics Letters, 107, 232904 (12/2015).
  4. Le Van Lich*, Takahiro Shimada, Jie Wang, Takayuki Kitamura. Instability criterion for ferroelectrics under mechanical/electric multi-fields: Ginzburg-Landau theory based modeling. Acta Materialia 112, 1-10 (6/2016).
  5. Le Van Lich*, Takahiro Shimada, Shahmohammadi Sepideh, Jie Wang, Takayuki Kitamura. Polar and toroidal electromechanical properties designed by ferroelectric nano-metamaterials. Acta Materialia, 113, 81-89 (7/2016).
  6. Le Van Lich*, Takahiro Shimada, Shahmohammadi Sepideh, Jie Wang, Takayuki Kitamura. Multilevel hysteresis loop engineered by ferroelectric nano-metamaterials. Acta Materialia, 125, 202–209 (2/2017).
  7. Le Van Lich*, Takahiro Shimada, Jie Wang, Takayuki Kitamura. Self-ordering of nontrivial topological polarization in nanoporous ferroelectrics. Nanoscale, 9, 15525–15533, (10/2017).
  8. Le Van Lich*, Takahiro Shimada, Jie Wang, Van-Hai Dinh, Tinh Quoc Bui, Takayuki Kitamura. Switching the chirality of ferroelectric vortex in designed nanostructures by a homogeneous electric field. Physical Review B, 96, 134119 (10/2017). (Editors’ Suggestion)
  9. Takayuki Kitamura, Takashi Sumigawa, Takahiro Shimada, Le Van Lich. Challenge toward Nanometer Scale Fracture Mechanics. Engineering Fracture Mechanics, 187, 33-44 (1/2018).
  10. Le Van Lich*, Takahiro Shimada, Kairi Masuda, Jie Wang, Tinh Quoc Bui, Van-Hai Dinh, Takayuki Kitamura. Continuum thermodynamics of unusual domain evolution-induced toughening effect in nanocracked strontium titanate. Engineering Fracture Mechanics, 190, 232-244 (1/3/2018). Q1
  11. Le Van Lich*, Quang-Thang Ton, Trong-Giang Nguyen, Van-Hai Dinh. On the correlation between topological defects of polarization field and Euler characteristics of ferroelectric nanostructures. Applied Physics Letters, 114, 022901 (1/2019).
  12. Le Van Lich*, Van-Hai Dinh. Formation of polarization needle-like domain and its unusual switching in compositionally graded ferroelectric thin films: An improved phase field model. RSC Advances, 9, 7575-7586 (3/2019).
  13. Le Van Lich*, Tinh Quoc Bui, Takahiro Shimada, Takayuki Kitamura, Trong-Giang Nguyen, Van-Hai Dinh. Deterministic switching of polarization vortices in compositionally graded ferroelectrics using a mechanical field. Physical Review Applied, 11, 054001 (5/2019). (Editors’ Suggestion)
  14. Le Van Lich*, Minh-Tien Le, Tinh Quoc Bui, Thanh-Tung Nguyen, Takahiro Shimada, Takayuki Kitamura, Trong-Giang Nguyen, Van-Hai Dinh. Asymmetric flux-closure domains in compositionally graded nanoscale ferroelectrics and unusual switching of toroidal ordering by an irrotational electric field. Acta Materialia 179, 215-223 (10/2019).
  15. Le Van Lich*, Takahiro Shimada, Takayuki Kitamura, Tinh Quoc Bui, and Van-Hai Dinh. Enhancement of electromechanical properties in (0–3) lead-free ferroelectric nanocomposites with multiphase coexistence. Composites Communications, 22, 100540 (10/2020).

(* Tác giả liên hệ)

 

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