Fan Hong
DNA origami: scaffolds for creating higher order structures
F Hong, F Zhang, Y Liu, H Yan
Chemical reviews 117 (20), 12584-12640, 2017
Dual stimuli-responsive nano-vehicles for controlled drug delivery: mesoporous silica nanoparticles end-capped with natural chitosan
A Hakeem, R Duan, F Zahid, C Dong, B Wang, F Hong, X Ou, Y Jia, X Lou, ...
Chemical Communications 50 (87), 13268-13271, 2014
Target‐Specific 3D DNA Gatekeepers for Biomimetic Nanopores
W Guo#, F Hong#, N Liu, J Huang, B Wang, R Duan, X Lou, F Xia
Advanced Materials 27 (12), 2090-2095, 2015
A highly sensitive and facile graphene oxide-based nucleic acid probe: Label-free detection of telomerase activity in cancer patient's urine using AIEgens
X Ou, F Hong, Z Zhang, Y Cheng, Z Zhao, P Gao, X Lou, F Xia, S Wang
Biosensors and Bioelectronics 89, 417-421, 2017
Layered-crossover tiles with precisely tunable angles for 2D and 3D DNA crystal engineering
F Hong, S Jiang, X Lan, RP Narayanan, P Šulc, F Zhang, Y Liu, H Yan
Journal of the American Chemical Society 140 (44), 14670-14676, 2018
3D framework DNA origami with layered crossovers
F Hong, S Jiang, T Wang, Y Liu, H Yan
Angewandte Chemie International Edition 55 (41), 12832-12835, 2016
Real-time monitoring of enzyme-free strand displacement cascades by colorimetric assays
R Duan, B Wang, F Hong, T Zhang, Y Jia, J Huang, A Hakeem, N Liu, ...
Nanoscale 7 (13), 5719-5725, 2015
Precise and programmable detection of mutations using ultraspecific riboregulators
F Hong, D Ma, K Wu, LA Mina, RC Luiten, Y Liu, H Yan, AA Green
Cell 180 (5), 1018-1032. e16, 2020
Electrochemical biocomputing: A new class of molecular-electronic logic devices
Y Jia, R Duan, F Hong, B Wang, N Liu, F Xia
Soft Matter 9 (29), 6571-6577, 2013
Understanding the elementary steps in DNA tile-based self-assembly
S Jiang#, F Hong#, H Hu, H Yan, Y Liu
ACS nano 11 (9), 9370-9381, 2017
Speeding up the self-assembly of a DNA nanodevice using a variety of polar solvents
R Duan, Y Tan, F Hong, B Wang, Z Chen, S Xu, X Lou, W Wei, B Yurke, ...
Nanoscale 6 (23), 14153-14157, 2014
Single-strand RPA for rapid and sensitive detection of SARS-CoV-2 RNA
Y Kim, AB Yaseen, JY Kishi, F Hong, SK Saka, K Sheng, N Gopalkrishnan, ...
medRxiv, 2020
An emergent understanding of strand displacement in RNA biology
F Hong, P Šulc
Journal of structural biology 207 (3), 241-249, 2019
Understanding DNA interactions in crowded environments with a coarse-grained model
F Hong, JS Schreck, P Šulc
Nucleic acids research 48 (19), 10726-10738, 2020
Cell-free biosensors: synthetic biology without borders
A Tinafar, Y Zhou, F Hong, KL Swingle, AA Tang, AA Green, K Pardee
Handbook of Cell Biosensors, G. Thouand, ed.(Springer International …, 2020
Regulating DNA Self-Assembly Dynamics with Controlled Nucleation
S Jiang, N Pal, F Hong, NE Fahmi, H Hu, M Vrbanac, H Yan, NG Walter, ...
ACS nano 15 (3), 5384-5396, 2021
Nanoscale mazes
F Zhang, F Hong, H Yan
Nature nanotechnology 12 (3), 189-190, 2017
Kinetics of RNA and RNA: DNA hybrid strand displacement
H Liu, F Hong, F Smith, J Goertz, TE Ouldridge, H Yan, P Sulc
bioRxiv, 2021
Computational Design and Study of Structural and Dynamic Nucleic Acid Systems
F Hong
Arizona State University, 2019
Ultraspecific nucleic acid sensors for low-cost liquid biopsies
AT Alexander Green, Fan Hong, Hao Yan, Soma CHAUDHARY
WO Patent WO2018093898A1, 2018
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