19. Fan, G.; Corbin, N.; Gill, T. M.; Karbelkar, A. A.; Furst, A. L. DNA-based immobilization for improved electrochemical carbon dioxide reduction. ChemRxiv 2022. (DOI: 10.26434/chemrxiv-2022-qll2k)

18. Karbelkar, A. A.; Ahlmark, R.; Fan, G.; Yang, Y. V.; Furst, A. L. Oxidative coupling for facile, stable carbon modification with DNA and proteins. ChemRxiv 2022. (DOI: 10.26434/chemrxiv-2022-bt457)

17. Wasuwanich, P.;# Fan, G.;# Burke, B.; Furst, A. L. Metal-phenolic networks as tuneable spore coat mimetics. J. Mater. Chem. B, 2022, 10, 7600-7606. (# equal contribution) [Link]

16. Fan, G.; Cottet, J.; Rodriguez-Otero, M. R.; Wasuwanich, P.; Furst, A. L. Metal–Phenolic Networks as Versatile Coating Materials for Biomedical Applications. ACS Appl. Bio Mater. 2022, 5, 10, 4687–4695. [Link]

15. Fan, G.; Wasuwanich, P.; Rodriguez-Otero, M. R.; Furst, A. L. Protection of anaerobic microbes from processing stressors using metal-phenolic networks. J. Am. Chem. Soc. 2022, 144, 2438–2443. [Link]

14. Zamani, M.; Yang, V.; Maziashvili, L.; Fan, G.; Klapperich, C. M.; Furst, A. L. Surface Requirements for Optimal Biosensing with Disposable Gold Electrodes. ACS Meas. Sci. Au 2022, 2, 91–95. [Link]

13. Fan, G.; Wasuwanich, P.; Furst, A. L. Biohybrid Systems for Improved Bioinspired, EnergyRelevant Catalysis. ChemBioChem 2021, 22, 1-16. [Link]

12. Fan, G.; Furst, A. L. How Far Can Electromicrobial Production Go? Joule 2020, 4, 2079-2081. [Link]

11. Fan, G.; Graham, A. J.; Kolli, J.; Lynd, N. A.; Keitz, B. K. Aerobic Radical Polymerization Mediated by Microbial Metabolism. Nature Chemistry 2020, 12, 638-646. [Link]

10. Fan, G.;# Dundas, C. M.;# Graham, A. J.; Lynd, N. A.; Keitz, B. K. Shewanella oneidensis as a Living Electrode for Controlled Radical Polymerization. Proceedings of the National Academy of Sciences of the United States of America 2018, 115(18), 4559-4564. (# equal contribution) [Link]

9. Fan, G.; Dundas, C. M.; Zhang, C.; Lynd, N. A.; Keitz, B. K. Sequence Dependent Peptide Surface Functionalization of Metal-Organic Frameworks. ACS Applied Materials & Interfaces 2018, 10(22), 18601–18609. [Link]

8. Yu, Y.; Fan, G.; Fermi, A.; Mazzaro, R.; Morandi, V.; Ceroni, P.; Smilgies, D.-M.; Korgel, B. A. Size-Dependent Photoluminescence Efficiency of Silicon Nanocrystal Quantum Dots. Journal of Physical Chemistry C 2017, 121(41), 23240-23248. [Link]

7. Fan, G.; Lin, Y.-X.; Yang, L.; Gao, F.-P.; Zhao, Y.-X.; Qiao, Z.-Y.; Zhao, Q.; Fan, Y.-S.; Chen, Z.; Wang, H. Co-self-assembled Nanoaggregates of BODIPY Amphiphiles for Dual-Color Imaging of Live-Cells. Chemical Communications 2015, 51(62), 12447-12450. [Link]

6. Yang, L.; Fan, G.; Ren, X.; Zhao, L.; Wang, J.; Chen, Z. Aqueous Self-assembly of a Charged BODIPY Amphiphile via Nucleation-Growth Mechanism. Physical Chemistry Chemical Physics 2015, 17(14), 9167-9172. [Link]

5. Lin, Y.-X.; Gao, Y.-J.; Wang, Y.; Qiao, Z.-Y.; Fan, G.; Qiao, S.-L.; Zhang, R.-X.; Wang, L.; Wang, H. pH-Sensitive Polymeric Nanoparticles with Gold (I) Compound Payloads Synergistically Induce Cancer Cell Death through Modulation of Autophagy. Molecular Pharmaceutics 2015, 12(8), 2869–2878. [Link]

4. Fan, G.; Yang, L.; Chen, Z.; Water-Soluble BODIPY and aza-BODIPY Dyes: Progress of Synthesis and Applications. Frontiers of Chemical Science and Engineering 2014, 8(4), 405-417. [Link]

3. Qiao, Z.-Y.; Qiao, S.-L.; Fan, G.; Fan, Y.-S.; Chen, Y.; Wang, H. One-pot Synthesis of pH-sensitive Poly(RGD-co-ß-amino ester)s for Targeted Intracellular Drug Delivery. Polymer Chemistry 2014, 5(3), 844-853. [Link]

2. Duan, Z.-Y.; Gao, Y.-J.; Qiao, Z.-Y.; Fan, G.; Liu, Y.; Zhang, D.; Wang, H. A Photoacoustic Approach for Monitoring the Drug Release of pH-sensitive Poly(ß-amino ester)s. Journal of Materials Chemistry B 2014, 2(37), 6271-6282. [Link]

1. Wang, L.; Li, W.; Lu, J.; Zhao, Y.-X.; Fan, G.; Zhang, J.-P.; Wang, H. Supramolecular Nano-Aggregates Based on Bis(Pyrene) Derivatives for Lysosome-Targeted Cell Imaging. Journal of Physical Chemistry C 2013, 117(50), 26811-26820. [Link]

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