Hui Jiang (姜 辉)
Cited by
Cited by
Highly stretchable, elastic, and ionic conductive hydrogel for artificial soft electronics
Y Zhou, C Wan, Y Yang, H Yang, S Wang, Z Dai, K Ji, H Jiang, X Chen, ...
Advanced Functional Materials 29 (1), 1806220, 2019
High‐Performance Field‐Effect Transistor Based on Dibenzo [d, d′] thieno [3, 2‐b; 4, 5‐b′] dithiophene, an Easily Synthesized Semiconductor with High Ionization Potential
JH Gao, RJ Li, LQ Li, Q Meng, H Jiang, HX Li, WP Hu
Advanced Materials 19 (19), 3008-3011, 2007
The emergence of organic single‐crystal electronics
H Jiang, W Hu
Angewandte Chemie International Edition 59 (4), 1408-1428, 2020
Tuning of the degree of charge transfer and the electronic properties in organic binary compounds by crystal engineering: a perspective
H Jiang, P Hu, J Ye, KK Zhang, Y Long, W Hu, C Kloc
Journal of Materials Chemistry C 6 (8), 1884-1902, 2018
Direct observation of macromolecular structures of humic acid by AFM and SEM
C Chen, X Wang, H Jiang, W Hu
Colloids and Surfaces A: Physicochemical and Engineering Aspects 302 (1-3†…, 2007
Crystal Growth, HOMO–LUMO Engineering, and Charge Transfer Degree in Perylene-FxTCNQ (x = 1, 2, 4) Organic Charge Transfer Binary Compounds
P Hu, K Du, F Wei, H Jiang, C Kloc
Crystal Growth & Design 16 (5), 3019-3027, 2016
Single-crystal growth of organic semiconductors
H Jiang, C Kloc
MRS Bulletin 38 (01), 28-33, 2013
Charge transport properties of Perylene–TCNQ crystals: The Effect of stoichiometry
D Vermeulen, LY Zhu, KP Goetz, P Hu, H Jiang, CS Day, OD Jurchescu, ...
The Journal of Physical Chemistry C 118 (42), 24688-24696, 2014
Electronic structure modulation of nanoporous cobalt phosphide by carbon doping for alkaline hydrogen evolution reaction
W Xu, G Fan, S Zhu, Y Liang, Z Cui, Z Li, H Jiang, S Wu, F Cheng
Advanced Functional Materials 31 (48), 2107333, 2021
Relieving the photosensitivity of organic field‐effect transistors
J Liu, L Jiang, J Shi, C Li, Y Shi, J Tan, H Li, H Jiang, Y Hu, X Liu, J Yu, ...
Advanced Materials 32 (4), 1906122, 2020
Cruciforms: assembling single crystal micro-and nanostructures from one to three dimensions and their applications in organic field-effect transistors
C Wang, Y Liu, Z Ji, E Wang, R Li, H Jiang, Q Tang, H Li, W Hu
Chemistry of Materials 21 (13), 2840-2845, 2009
Phase dependence of single crystalline transistors of tetrathiafulvalene
H Jiang, X Yang, Z Cui, Y Liu, H Li, W Hu, Y Liu, D Zhu
Applied Physics Letters 91 (12), 2007
Fluorination of Metal Phthalocyanines: Single-Crystal Growth, Efficient N-Channel Organic Field-Effect Transistors and Structure-Property Relationships
H Jiang, J Ye, P Hu, F Wei, K Du, N Wang, T Ba, S Feng, C Kloc
Scientific reports 4 (1), 7573, 2014
Molecular Crystal Engineering: Tuning Organic Semiconductor from p-type to n-type by Adjusting Their Substitutional Symmetry.
H Jiang, P Hu, J Ye, Y Li, H Li, X Zhang, R Li, H Dong, W Hu, C Kloc
Advanced Materials (Deerfield Beach, Fla.) 29 (10), 2017
Single-crystal growth, structures, charge transfer and transport properties of anthracene-F 4 TCNQ and tetracene-F 4 TCNQ charge-transfer compounds
P Hu, H Li, Y Li, H Jiang, C Kloc
CrystEngComm 19 (4), 618-624, 2017
High‐Performance Organic Single‐Crystal Field‐Effect Transistors of Indolo [3, 2‐b] carbazole and Their Potential Applications in Gas Controlled Organic Memory Devices
H Jiang, H Zhao, KK Zhang, X Chen, C Kloc, W Hu
Advanced Materials 23 (43), 5075-5080, 2011
Hole Mobility Modulation in Single‐Crystal Metal Phthalocyanines by Changing the Metal–π/π–π Interactions
H Jiang, P Hu, J Ye, R Ganguly, Y Li, Y Long, D Fichou, W Hu, C Kloc
Angewandte Chemie International Edition 57 (32), 10112-10117, 2018
Solvent-dependent stoichiometry in perylene–7, 7, 8, 8-tetracyanoquinodimethane charge transfer compound single crystals
P Hu, L Ma, KJ Tan, H Jiang, F Wei, C Yu, KP Goetz, OD Jurchescu, ...
Crystal growth & design 14 (12), 6376-6382, 2014
Greater than 10 cm2†V−1†s−1: A breakthrough of organic semiconductors for field‐effect transistors
P Hu, X He, H Jiang
InfoMat 3 (6), 613-630, 2021
Disc-like 7, 14-dicyano-ovalene-3, 4: 10, 11-bis (dicarboximide) as a solution-processible n-type semiconductor for air stable field-effect transistors
J Li, JJ Chang, HS Tan, H Jiang, X Chen, Z Chen, J Zhang, J Wu
Chemical Science 3 (3), 846-850, 2012
The system can't perform the operation now. Try again later.
Articles 1–20