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Họ tên: PGS. TS. Nguyễn Duy Cường

Chức vụ: Giảng viên cao cấp

Thuộc đơn vị: Khoa Vật Liệu Điện Tử và Linh Kiện

Địa chỉ email: cuong.nguyenduy@hust.edu.vn

Nhóm chuyên môn: 1- Công nghệ chế tạo linh kiện Vi điện tử; 2- Kỹ thuật Vi điện tử cơ sở

Lý lịch khoa học

GIỚI THIỆU

PGS. TS. Nguyễn Duy Cường hiện là giảng viên cao cấp Khoa Vật liệu điện tử và linh kiện, Trường Vật liệu, Đại học Bách Khoa Hà Nội. PGS. TS. Nguyễn Duy Cường đã tốt nghiệp Đại học chuyên ngành Vật lý, Đại học Sư phạm năm 2003; nhận bằng Thạc sỹ chuyên ngành Khoa học vật liệu tại Viện ITIMS, Trường Đại học Bách Khoa Hà Nội năm 2007; hoàn thành Luận án Tiến sỹ chuyên ngành Khoa học Vật liệu, ĐH Quốc gia Chungnam, Hàn Quốc năm 2009. Các hướng nghiên cứu hiện nay của PGS. TS. Nguyễn Duy Cường bao gồm: Dây nano kim loại;  Điện cực trong suốt; Pin năng lượng mặt trời; Kính chống phản xạ, kính phủ.

LĨNH VỰC NGHIÊN CỨU

  • Dây nano kim loại.
  • Điện cực trong suốt
  • Pin năng lượng mặt trời
  • Kính chống phản xạ, kính phủ

CÁC MÔN GIẢNG DẠY

  • Pin năng lượng mặt trời

CÁC CÔNG TRÌNH KHOA HỌC TIÊU BIỂU

Một đề tài NCKH điển hình:

Chủ nhiệm đề tài cấp bộ:

  • Nghiên cứu và tổng hợp điện cực trong suốt nanocomposite cho ứng dụng trong điện cực cửa sổ pin năng lượng mặt trời

Chủ nhiệm đề tài Quỹ NAFOSTED:

  • Nghiên cứu chế tạo pin năg lượng mặt trời Cu(Zn,Sn)(S,Se) 2 và Cu(In,Ga)(S,Se) 2 bằng phương pháp in, Mã số: 103.02-2013.36 (2014-2017).
  • Nghiên cứu phát triển pin năng lượng mặt trời sử dụng hạt nano Cu(Zn,Sn)Se2 để chế tạo lớp hấp thụ ánh sáng, Mã số: 103.02-2017.46 (2018-2021)

Một số bài báo điển hình:

  • Patent: Nguyen Duy Cuong, Dong Jin Kim, Je Cheon Ryu and Soon Gil Yoon, “Ti(N) thin-film resistor deposited on ALN substrate and attenuator using same”, US patent, Pub.No.US2009/0002123A1, Pub.Date: Jan 1, 2009.

Bài báo ISI:

  1. Nguyen Duy Cuong, Dong-Jin Kim, Byoung-Don Kang, Chang-Soo Kim, Kwang-Min Yu, and Soon-Gil Yoon, “Characterization of tantalum nitride thin films deposited on SiO2/Si substrates using dc magnetron sputtering for Pi-type attenuator applications”, Electrochem. Soc., Vol. 153 (2), G164-G167, 2006.
  2. Nguyen Duy Cuong, Dong-Jin Kim, Boung-Don Kang, Chang-Soo Kim, and Soon-Gil Yoon “Effect of annealing temperature on structure and electrical properties of tantalum nitride thin film resistors deposited on SiO2/Si substrates by dc-sputtering technique”, Vac. Sci. Technol. B, Vol. 64(2), 682, 2006.
  3. Nguyen Duy Cuong, Dong-Jin Kim, Boung-Don Kang, Chang-Soo Kim, and Soon-Gil Yoon, “Effect of film thickness on electrical properties of tantalum nitride thin films deposited on SiO2/Si substrates for P-type attenuator application“, Vac. Sci. Technol. B, Vol. 24(3), 1398-1401, 2006.
  4. Nguyen Duy Cuong, Dong-Jin Kim, Byoung-Don Kang, and Soon-Gil Yoon “P-type attenuator application of tantalum nitride thin films deposited on AlN substrates”, Materials Science and Engineering B, Vol. 135, 162-165, 2006.
  5. Nguyen Duy Cuong, Dong-Jin Kim, Byoung-Don Kang, and Soon-Gil Yoon, ”Structural and electrical properties of TiNxOthin film resistors for 30 dB applications of π-type attenuator”, Electrochem. Soc., Vol.153, G856-859, 2006.
  6. Nguyen Duy Cuong, Dong-Jin Kim, Byoung-Don Kang, and Soon-Gil Yoon, “Effects of nitrogen concentration on structural and electrical properties of titanium nitride for thin film resistor applications”, Solid-State Lett., Vol. 9(9),G279-281, 2006.
  7. Nguyen Duy Cuong, Dong-Jin Kim, Byoung-Don Kang, and Soon-Gil Yoon, “Characterizations of high resistivity TiNxOy thin film for applications in thin film resistors”, Reliability Microelectronics, Vol.47, 752-754 (2007).
  8. Nguyen Duy Cuong, Dong Jin Kim, Byoung-Don Kang, and Soon Gil Yoon, “Ti(N) thin film resistors for 20dB P-type attenuator applications”, Phys. Lett., Vol.90, p.183506-183508 (2007).
  9. Nguyen Duy Cuong, Dong Jin Kim, and Soon Gil Yoon, “Realization of P-Type Attenuator using Ti(N) thin films for the 4th Generation of Mobile Telecommunications”, Phys.Lett., Vol.91, p203502 (2007).
  10. Jun Ku Ahn, Nguyen Duy CuongChang Soo Kim, and Soon Gil Yoon, “ Structural and electrical properties of Bi5Mg1.0Nb1.5O7 thin films deposited on Pt/TiO2/SiO2/Si substrates by rf-magnetron sputtering”, J. Vac. Sci. Technol. B. Vol. 26, 1277, 2008.
  11. Kyeong-Chan Ahn, Woo-Sung Lee, Cheol-Jung Kim, Nguyen Duy Cuong, Soon Gil Yoon, and Kyu-Jeong Choi “Heteroepotaxial growth and ferroelectric properties of PbZr52Ti0.48O3/SrRuO3 structure on TiO2-terminated SrTiO3(100) by pulsed laser deposition”, integrated ferroelectrics, 64, 183-189, 2004.
  12. T. Le, Chong-Oh Kim, Nguyen Chau, Nguyen Duy Cuong, Nguyen Duc Tho, Nguyen Quang Hoa, Heebok Lee, “Soft magnetic properties and giant magneto-impedance effect of Fe73.5-xCrxSi13.5B9Nb3Au1(x = 1-5) alloys”, J. Magn. Magn. Mater., Vol. 307, 178-185, 2006.
  13. Nguyen Duy Cuong and Soon-Gil Yoon, “ Characterization of SrRuO3 conducting thin films grown on P-Si(100) substrates by Metalorganic Chemical Vapor Deposition”, Korean Transactions on Electrical and Electronic Materials, Vol.6, No.1, (2005).
  14. Anh-Tuan Le, Nguyen Chau, Nguyen Duy Cuong, Ngo Duc The, Chong-Oh Kim, Jang-Roh Rhee, and Heebok Lee, “AFM study and magnetic properties of nanocrystalline Fe73.5-xCrxSi13.5B9Nb3Au1 (x= 1~5) alloys”, Journal of Magnetics, The Korean Magnetics Society, Volume 11, No. 1, pages 43-50 , March 2006.
  15. Nguyen Duy Cuong, Jun-Ku Ahn, Kyung-Woo Park, Nak-Jin Seong, and Soon-Gil Yoon, “An extremely high dielectric constant in bismuth-based pyrochlore myltilayer film capacitors combined with percolative structure”, Phys. Lett., Vol.93, p.212901(2008).
  16. Nguyen Duy Cuong, Yeon Woong Park, and Soon-Gil Yoon, “Microstructural and electrical properties of Ga2O3 nanowires grown at various temperatures by vapor-liquid-solid technique”, Sennsors and Actuators B, Vol.140, p.240-244 (2009).
  17. Jun-Ku Ahn, Nguyen Duy Cuong, Nak-Jin Seong, and Soon-Gil Yoon ”Electrical properties of BiMg2/3Nb4/3O7 multilayer films combined with percolative capacitors”, Electrochem. Soc., Vol.156, G134-137, 2009.
  18. Kyoung-Woo Park, Sung-Gi Hur, Nguyen Duy Cuong, Jun-Ku Ahn, and Soon-Gil Yoon, “ Structural and electrical properties of high resistance of TiNxOy/TiNx multilayer thin film resistors”, Journal of The korean Institute of Metal and Materials, 47, No. 9, pp. 591~596 (2009).
  19. Toshihiro Ryo, Duy-Cuong Nguyen, Motohito Nakagiri, Noriaki Toyoda, Hiroaki Matsuyoshi, and Seigo Ito, “Characterization of superstrate type CuInS2 solar cells deposited by spray pyrolysis method”, Thin Solid Films, Vol.519, pp.7184-7188 (2011).
  20. Duy-Cuong Nguyen, Jenji Takehara, Toshihiro Ryo, and Seigo Ito, “Back contact for superstrate CuInS2 solar cells”, Energy Procedia, Vol.10, pp. 49-54 (2011).
  21. Duy-Cuong Nguyen, Yuki Mikami, Kazuki Tsujimoto, Toshihiro Ryo and Seigo Ito, “Spray-pyrolyzed 3D CuInS2 solar cells on nanocrystalline-titania electrodes with chemical bath deposited Inx(OH)ySz buffer layers”, Japanese Journal of Applied Physics, Vol.51, pp.10NC23 (2012).
  22. Kazuki Tsujimoto, Duy-Cuong Nguyen, Seigo Ito, Hitoshi Nishino, Hiroaki Matsuyoshi, Akinori Konno, R. Asoka Kumara, and Kirthi Tennakone, “TiO2 surface treatment effects by Mg2+, Ba2+, and Al3+ on Sb2S3 extremely thin absorber solar cells”, The Journal of Physical Chemistry, Vol.116(25), p.13465-13471 (2012).
  23. Duy-Cuong Nguyen, Seigo Ito, Masamichi Inoue, and Shin-Ichi Yusa, “Superstrate CuInSe2-Printed Solar Cells on In2S3/TiO2/FTO/Glass Plates”, Energy Science and Technology, Vol.3, pp.10-17 (2012).
  24. Duy-Cuong Nguyen, Toshihiro Ryo, Laurent Lombez, and Seigo Ito, “Effect of Na and Ti-doping on photovoltaic properties of CuInS2 solar cells”, International Journal of Nanotechnology, Vol.10, pp.279-283 (2013).
  25. Duy-Cuong Nguyen and Seigo Ito, “Cu2Te Solar Cells Fabricated by Printing”, International Journal of Nanotechnology, 10, pp.269-278 (2013).
  26. Duy-Cuong Nguyen, Souichiro Tanaka, Hitoshi Nishino, Kyohei Manabe and Seigo Ito, “3-D Solar Cells by Electrochemical-Deposited Se Layer as Extremely-Thin Absorber and Hole Conducting Layer on Nanocrystalline-TiO2”, Nanoscale Research Letters, Vol.8, pp.8 (2013).
  27. Norihisa Hanaro, Duy-Cuong Nguyen and Seigo Ito, “CuInSsuperstrate solar cells with ZnO compact layer fabricated by full non-vacuum methods”, Journal of Advanced Oxide Technology, Vol.16, pp.102-106 (2013).
  28. Seigo Ito, Kazuki Tsujimoto, Duy-Cuong Nguyen, Kyohei Manabe and Hitoshi Nishino, “Doping Effects of Ti4+, Zn2+, and Bi3+ in Sb2S3 Extremely Thin Absorber Layer for Solar Cells with 5.7% Conversion Efficiency”, International Journal of Hydrogen Energy, Vol.38, pp. 16749–16754 (2013).
  29. Duy-Cuong Nguyen, Ken Fukatsu, Keiji Tanimoto, and Seigo Ito, “Making nanoparticle ink for compound solar cells”, SPIE Newsroom (2012).
  30. Noriyuki Kitagawa, Seigo Ito, Duy-Cuong Nguyen, Hitoshi Nishino, “Copper Zinc Sulfur Compound Solar Cells Fabricated by Spray Pyrolysis Deposition for Solar Cells”, Natural Resources, Vol.4, pp.142-145 (2013).
  31. Nguyen Duy Cuong Nguyen, Ken Fukatsu, Keiji Tanimoto, S. Ikeda, Michio Matrumura, and Seigo Ito, “The effect of annealing temperature and KCN etching on the photovoltaic properties of Cu(In,Ga)(S,Se)2 solar cells using nanoparticles” , International Journal of Photoenergy, Vol.2013, 2013.
  32. Nguyen Tu, N.T. Tuan, Nguyen Van Dung, D. Cuong, N.D.T. Kien, P.T. Huy, Nguyen Van Hieu, and D.H. Nguyen, “Near-infrared emission from ZnO nanorods grown by thermal evaporation”, Journal of Luminescence, Vol. 156, pp. 199–204, 2014.
  33. T.H. Tam, N.V. Du, N.D.T. Kien, C.X. Thang, N.D. Cuong, P.T. Huy, N.D. Chien, and D.H. Nguyen, “Near-infrared emission from ZnO nanorods grown by thermal evaporation”, Journal of Luminescence, Vol.147, pp. 358–362, 2014.
  34. Duy-Cuong Nguyen*Seigo Ito, and Dang Viet Anh Dung, “Effects of annealing conditions on crystallization of the CZTS absorber and photovoltaic properties of Cu(Zn,Sn)(S,Se)2 solar cells”, Journal of Alloys and Compounds, Vol.632, pp. 676–680, 2015.
  35. Thanh-Tung Duong, Quy-Nhan Do, Anh-Tuan Pham, and Duy-Cuong Nguyen*, A facile nonaqueous solution approach to controlling the size of ZnO crystallites and predominant {0001} facets, Journal of Alloys and Compounds,686, pp.854-858, 2016.
  36. Anh-Tuan Pham, Xuan-Quang Nguyen, Duc-Huy Tran, Vu Ngoc Phan, Thanh-Tung Duong and Duy-Cuong Nguyen*, Enhancement of the electrical properties of silver nanowire transparent conductive electrodes by atomic layer deposition coating with zinc oxide, Nanotechnology, vol. 27, pp.335202, 2016.
  37. Pham Anh Tuan, Nguyen Xuan Quang, Tran Duc Huy, Dang Viet Anh Dung, Vu Ngoc Phan, Phan Huy Hoang, Duong Thanh Tung and Nguyen Duy Cuong*, Investigation of a stable Mo substrate for chalcopyrite solar cells: a green process for sustainable energy applications, Green Processing and Synthesis, Vol.5, pp. 451–457, 2016.
  38. Trinh Xuan Anh, Duong Thanh Tung, Do Quy Nhan, Tran Vinh Hoang, Do Quang Trung, Le Dieu Thu, Phan Huy Hoang and Nguyen Duy Cuong*, Study of ATO nanoparticles by solvothermal method for thermal insulated coated glass, a green energy application, Green Processing and Synthesis, Vol.5, pp.1-7, 2016.
  39. Pham Anh Tuan, Vu Ngoc Phan, Tran Duc Huy, Dang Viet Anh Dung, Nguyen Xuan Quang, Nguyen Duy Cuong*, Fabrication of Cu(In,Ga)(S,Se)2 solar cells by solution methods, Journal of Electronic Materials, Vol.46, pp.3453, 2016.
  40. T.K. Lien, N.V. Thang, N.D. Hung, N.D. Cuong, N.D.T. Kien, C.X. Thang, P.H. Vuong, D.X. Viet, N.T. Khoi, and P.T. Huy, “Influence of Annealing Temperature and Gd and Eu Concentrations on Structure and Luminescence Properties of (Y,Gd)BO3:Eu3+ Phosphors Prepared by Sol–Gel Method”, Journal of Electronic Materials, Vol.46, pp. 3427–3432, 2017.
  41. Le Thanh Huy, Le Thi Tam, Tran Van Son, Nguyen Duy Cuong, Man Hoai Nam, Le Khanh Vinh, Tran Quang Huy, Duc-The Ngo, Vu Ngoc Phan and Le Anh Tuan, Photochemical Decoration of Silver Nanocrystals on Magnetic MnFe2O4 Nanoparticles and Their Applications in Antibacterial Agents and SERS-Based Detection, Journal of Electronic Materials, Vol.46, pp. 3427–3432, 2017.
  42. Vu Thi Trang, Le Thi Tam, Nguyen Van Quy, Tran Quang Huy, Nguyen Thanh Huy, Doan Quang Tri, Nguyen Duy Cuong, Pham Anh Tuan, Hoang Van Tuan, Anh-Tuan Le, Vu Ngoc Phan, “Functional Iron Oxide–Silver Hetero-Nanocomposites: Controlled Synthesis and Antibacterial Activity”, Journal of Electronic Materials, Vol.46, pp. 3381–3389, 2017.
  43. Tat-Dat Tran, Duy-Hung Nguyen, Thanh-Huy Pham, Duy-Cuong Nguyen, Thanh-Tung Duong, “Achieving High Luminescent Performance K2SiF6:Mn4+Phosphor by Co-precipitation Process with Controlling the Reaction Temperature”, Journal of Electronic Materials, 47, pp.4634-4641, 2018.
  44. Thi Thu Hien Nguyen, Anh Tuan Pham, Duc Huy Tran, Viet Anh Dung Dang, Ngoc Phan Vu, Huu Dung Nguyen, Thanh Tung Duong and Duy Cuong Nguyen*, “Cu(Zn,Sn)(S,Se)2 solar cells with a nanocomposite window layer produced by totally nonvacuum methods”, Journal of Electronics Materials, Vol. 48, pp.5555–5561, 2019.
  45. Nguyen Van Toan1, Nguyen Thi Thu Hien1, Pham Anh Tuan4, Tran Duc Huy2, Dang Viet Anh Dung3, Vu Ngoc Phan1, Nguyen Huu Dung1, Duong Thanh Tung1and Nguyen Duy Cuong*, “Effect of aluminium concentration and reaction temperature on the structural and optical properties of Al-doped ZnO particles”,  Res. Express 6, 0950a7, 2019.
  46. Thi Thu Hien Nguyen, Duc Huy Tran, Viet Anh Dung Dang, Hoang Vinh Tran, Dieu Thu Le, Thanh Huy Pham, Duy Cuong Nguyen*, “Developing highly crystalline, single-phase and copper-poor Cu2ZnSnSe4nanoparticles for solar cell application”, Materials Letters 269, 127654 (2020).
  47. Thi Bich Hao Huynh, Duc Thanh Chu, Van Hoan Hoang, Thi Thu Hien Nguyen, Thanh Tung Duong, Van Anh Tran, Thanh Huy Pham and Duy Cuong Nguyen*, “Synthesis of Gallium-Doped Zinc Oxide (GZO) Nanoparticles for GZO/Silver Nanowire Nanocomposite Transparent Conductive Electrodes”, Journal of Electronics Materials, 49,  3964–3971, 2020.
  48. Quoc Hoan Tran, Duc Thanh Chu, Van Hoan Hoang, Sy Hieu Pham, Philippe Leclère,Thi Thu Hien Nguyen, Duc Huy Tran, Quang Trung Do, Anh Tuan Pham, Duy Cuong Nguyen*, “A simple method for enhancing the electrical properties of silver nanowire transparent conductive electrodes”, Materials Letters 287 (2021) 129243.
  49. Xuan-Viet Pham, Ba-Duc Tran, Duy-Cuong Nguyen, Tu Nguyen, Minh-Vuong Nguyen, Cao-Ngoc-Hong Nguyen and Thanh-Tung Duong, “Low-Dimensional CsPbBr3@CoBr2 Super-Nanowire Structure for Perovskite/PMMA Composite with Highly Blue Emissive Performance”, Crystals11(12) (2021) 1564.
  50. Quoc Hoan Tran, Duc Thanh Chu, Van Hoan Hoang, Quang Trung Do, Sy Hieu Pham, Philippe Leclère, Tam Duy Nguyen, Anthony Ferri, Antonio Da Costa, Rachel Desfeux, Duy Cuong Nguyen*, “Enhancement of electrical and thermal properties of silver nanowire transparent conductive electrode by Ag coating”, Materials Science and Engineering: B 278 (2022) 115640.
  51. Hong-Cuong Truong, Cong-Dan Bui, Van-Duong Dao, Sy Hieu Pham, Philippe Leclère, Duy-Cuong Nguyen, Bui-Thi Hang, Van-Quy Nguyen, Van-Dang Tran, Soon-Gil Yoon, “TCO-free perovskite solar cells in taking advantage of SWCNT/TiO2 core/shell sponge”, Journal of Science: Advanced Materials and Devices 7 (2022) 100440.
  52. Sy Hieu Pham, Anthony Ferri, Antonio Da Costa, M. Saj Mohan, Van Dang Tran, Duy Cuong Nguyen, Pascal Viville, Roberto Lazzaroni, Rachel Desfeux, Philippe Leclère, “Nanoscale Electrical Investigation of Transparent Conductive Electrodes Based on Silver Nanowire Network”, Advanced Materials Interfaces 2022.
  53. Huu Trung Tran, Duc Huynh Mai, Thu Trang Nguyen Thi, Thi Mai Tran, Dang Tuyen Nguyen, Xuan Anh Trinh, Duc Huy Vu, Quoc Khanh Dang, Vu Giang Nguyen**, Duy Cuong Nguyen*, “Characterization of closed-surface antireflective TiO2–SiO2 films for application in solar-panel glass”, Materials Letters 326 (2022) 132921.
  54. Nhan T. T. Le, Hoang V. Tran*, Chinh D. Huynh, Cuong D. Nguyen and Toan V. Phi, “Thermal Exfoliated Graphite/Chitosan Modified Glassy Carbon Electrode for Cu(II) Ion Sensing”, Current Analytical Chemistry (2022).
  55. Phuong-Nam Tran, Ba-Duc Tran, Duy-Cuong Nguyen, Thi-Lan Nguyen, Van-Dang Tran and Thanh-Tung Duong*, “A Facile Centrifuge Coating Method for High-Performance CsPbBr3 Compact and Crack-Free Nanocrystal Thin Film Photodetector”, Crystals 12 (2022) 587.

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