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Artem Shulga
Artem Shulga
QDI systems
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Title
Cited by
Cited by
Year
High‐Efficiency PbS Quantum‐Dot Solar Cells with Greatly Simplified Fabrication Processing via “Solvent‐Curing”
K Lu, Y Wang, Z Liu, L Han, G Shi, H Fang, J Chen, X Ye, S Chen, F Yang, ...
Advanced Materials 30 (25), 1707572, 2018
1612018
Room-temperature direct synthesis of semi-conductive PbS nanocrystal inks for optoelectronic applications
Y Wang, Z Liu, N Huo, F Li, M Gu, X Ling, Y Zhang, K Lu, L Han, H Fang, ...
Nature communications 10 (1), 5136, 2019
1302019
High gain hybrid graphene–organic semiconductor phototransistors
EH Huisman, AG Shulga, PJ Zomer, N Tombros, D Bartesaghi, SZ Bisri, ...
ACS applied materials & interfaces 7 (21), 11083-11088, 2015
732015
Comparing halide ligands in PbS colloidal quantum dots for field-effect transistors and solar cells
D Bederak, DM Balazs, NV Sukharevska, AG Shulga, M Abdu-Aguye, ...
ACS applied nano materials 1 (12), 6882-6889, 2018
692018
Double gate PbS quantum dot field‐effect transistors for tuneable electrical characteristics
AG Shulga, L Piveteau, SZ Bisri, MV Kovalenko, MA Loi
Advanced electronic materials 2 (4), 1500467, 2016
672016
Electron Mobility of 24 cm2 V−1 s−1 in PbSe Colloidal‐Quantum‐Dot Superlattices
DM Balazs, BM Matysiak, J Momand, AG Shulga, M Ibáñez, ...
Advanced Materials 30 (38), 1802265, 2018
522018
Electroluminescence generation in PbS quantum dot light-emitting field-effect transistors with solid-state gating
AG Shulga, S Kahmann, DN Dirin, A Graf, J Zaumseil, MV Kovalenko, ...
ACS nano 12 (12), 12805-12813, 2018
512018
An All‐Solution‐Based Hybrid CMOS‐Like Quantum Dot/Carbon Nanotube Inverter
AG Shulga, V Derenskyi, JM Salazar‐Rios, DN Dirin, M Fritsch, ...
Advanced Materials 29 (35), 1701764, 2017
432017
Quantum dot light‐emitting transistors—powerful research tools and their future applications
S Kahmann, A Shulga, MA Loi
Advanced Functional Materials 30 (20), 1904174, 2020
412020
PbSe Nanorod Field‐Effect Transistors: Room‐and Low‐Temperature Performance
L Han, DM Balazs, AG Shulga, M Abdu‐Aguye, W Ma, MA Loi
Advanced Electronic Materials 4 (3), 1700580, 2018
182018
Patterned quantum dot photosensitive FETs for medium frequency optoelectronics
AG Shulga, A Yamamura, K Tsuzuku, RM Dragoman, DN Dirin, ...
Advanced Materials Technologies 4 (9), 1900054, 2019
112019
Heterostructure from PbS Quantum Dot and Carbon Nanotube Inks for High‐Efficiency Near‐Infrared Light‐Emitting Field‐Effect Transistors
D Bederak, A Shulga, S Kahmann, W Talsma, J Pelanskis, DN Dirin, ...
Advanced Electronic Materials 8 (7), 2101126, 2022
72022
Colloidal quantum dot field-effect transistors: From electronic circuits to light emission and detection
AG Shulga
12019
Colloidal nanoparticle inks for printing of active layers in an optoelectronic device
MA Loi, AG Shulga, DY Bederak
US Patent App. 17/801,651, 2023
2023
Imaging device based on colloidal quantum dots
AG Shulga, MA Loi
US Patent App. 17/186,181, 2021
2021
Colloidal quantum dot field-effect transistors
AG Shulga
2019
Carbon Nanotubes: An All‐Solution‐Based Hybrid CMOS‐Like Quantum Dot/Carbon Nanotube Inverter (Adv. Mater. 35/2017)
AG Shulga, V Derenskyi, JM Salazar‐Rios, DN Dirin, M Fritsch, ...
Advanced Materials 29 (35), 2017
2017
Article type: Communication
DM Balazs, BM Matysiak, J Momand, AG Shulga, M Ibáñez, ...
6. Electron mobility above 24 cm 2/Vs in PbSe colloidal quantum dot superlattices
DM Balazs, BM Matysiak, J Momand, AG Shulga, M Ibanez, ...
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Articles 1–19