Marmot

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40.听Disparate Redox Potentials in Mixed Isomer Electrolytes Reduce Voltage Efficiency of Energy Dense Flow Batteries
Davis, C.M.; Waters, S.E.; Robb, B.H.; Thurston, J.R.; Reber, D.; Marshak, M.P.
Batteries2023,听9, 573. DOI:

39.听Beyond energy density: flow battery design driven by safety and location
Reber, D.; Jarvis, S. R.; Marshak, M. P.
Energy Adv., 2023, 2, 1357鈥1365. DOI:听

38.听Sulfonated Diels-Alder Poly(phenylene) Membrane for Efficient Ion-Selective Transport in Aqueous Metalorganic and Organic Redox Flow Batteries
Robb, B. H.; George, T. Y.; Davis, C. M.; Tang Z.; Fujimoto, Cy.; Aziz, M. J.; Marshak, M. P.
J. Electrochem. Soc.听2023, 170, 030515. DOI:听

37.听Stability of highly soluble ferrocyanides at neutral pH for energy-dense flow batteries
Reber, D.; Thurston, J. R.; Beker, M.; Marshak, M. P.
Cell Reports Phys. Sci.听2023, 4, 101215. DOI:听

36.听The role of energy density for grid-scale batteries
Reber, D.; Jarvis, S. R.; Marshak, M. P.
ChemRxiv. 2022. DOI:听

35.听Realized potential as neutral pH flow batteries achieve high power densities
Robb, B. H.; Waters, S. E.; Saraidaridis, J. D.; Marshak, M. P.
Cell Reports听Phys. Sci.2022, 3, 101118. DOI:听

34.听Monitoring Ion Exchange Chromatography with Affordable Flame Emission Spectroscopy
Thurston, J. E.; Marshak, M. P.; Reber, D.
J. Chem. Educ.听2022, 99,听4051鈥4056. DOI:听

33.听Maximizing Vanadium Deployment in Redox Flow Batteries Through Chelation
Waters, S. E.; Davis, C. M.; Thurston, J. E.; Marshak, M. P.听
J. Am. Chem. Soc.2022, 144,听17753鈥17757. DOI:听

32.听High Energy Density Chelated Chromium Flow Battery Electrolyte at Neutral pH
Robb, B. H.; Waters, S. E.; Marshak, M. P.听
Chem Asian J. 2022, 17, e202200700.听DOI:听

31.听Transport of Ligand Coordinated Iron and Chromium through Cation-Exchange Membranes
Saraidaridis, J. D.; Darling, R. M.;听Yang, Z.;听Fortin, M. E.;听Shovlin, C.; Robb, B. H.;听Waters, S. E.;听Marshak, M. P.
J. Electrochem. Soc.2022,听169,听060532. DOI:听

30.听Isolation and characterization of a highly reducing aqueous chromium (II) complex
Waters, S.听E.; Robb, B. H.; Scappaticci, S. J.; Saraidaridis, J. D.; Marshak, M. P.
Inorg. Chem.听2022,听61, 8752鈥8759. DOI:听

29.听Mediating anion-cation interactions to improve aqueous flow battery electrolytes
Reber, D.; Thurston, J. R.; Becker, M.; Pache, G. F.; Wagoner, M. E.; Robb, B. H.; Waters, S. E.; Marshak, M. P.
Appl. Mater. Today2022,听28,听101512. DOI:听

28.听Bismuth Electrocatalyst Enabling Reversible Redox Kinetics of a Chelated Chromium Flow Battery Anolyte
Proctor, A. D.; Robb, B. H.; Saraidaridis, J. D.; Marshak, M. P.
J. Electrochem. Soc.2022, 169,听030506. DOI:听

27.听Holistic design principles for flow batteries: Cation dependent membrane resistance and active species solubility
Waters, S. E.;听Thurston, J. R.; Armstrong, R. W.; Robb, B. H.;听Marshak, M. P.; Reber, D.听
J. Power Sources2022,听520, 230877. DOI:听

26.听Iron Flies Higher
Marshak, M. P.
Nature听Energy 2021,听6, 854鈥855. DOI:听

25.听Synthesis, reactivity, and crystallography of a sterically hindered acyl triflate
Crossman, A. S.; Shi, J. X.; Krajewski, S. M.; Maurer, L. M.; Marshak, M.P.
Tetrahedron 2021.听94,听132308. DOI:听
*2021 Editors鈥 Choice Collection

24.听Open for bismuth: main group metal-to-ligand charge transfer
Maurer, L. M.; Pearce, O. M.; Maharaj, F. D. R; Brown, N. L.; Amador, C. A.; Damrauer, N. H.; Marshak, M. P.
Inorg. Chem.听2021.听60, 10137鈥10146 DOI:听

23.听Organic and Metal-Organic RFBs
Thurston, J. R.; Waters, S. E.; Robb, B. H.; Marshak, M.P听
Encyclopedia of Energy Storage听2021. DOI:听

22. -Diketones: Coordination and Application
Crossman, A. S. and Marshak, M. P.
Comprehensive Coordination Chemistry III.听2021, DOI:听

21. Evaluating Aqueous Flow Battery Electrolytes: A Coordinated Approach
Robb, B. H.; Waters, S. E.; Marshak, M. P.
Dalton Trans.,听2020, 49, 16047鈥16053. DOI:听

20.听Minimizing Oxygen Permeation in Metal-Chelate Flow Batteries
Robb, B. H.; Waters, S. E.; Marshak, M. P.
ECS Trans.听2020,听97, 237鈥245. DOI:听

19.听Effect of Chelation on Iron-Chromium Redox Flow Batteries
Waters, S. E.; Robb, B. H.; Marshak, M. P.
ACS Energy Lett.2020,听6,听1758鈥1762. DOI:听

18.听Group 4 Organometallics Supported by Sterically Hindered 尾鈥怐iketonates
Hopkins, E. J.; Krajewski, S. M.; Crossman, A. S.; Maharaj, F. D. R.; Schwanz, L. T.; Marshak, M. P.
Eur. J. Inorg. Chem.2020, 20, 1951鈥1959. DOI:听

17.听Titanium-Anthraquinone Material as a New Design Approach for Electrodes in Aqueous Rechargeable Batteries
Maharaj, F. D. R.; Marhsak, M. P.
Energies, 2020, 13, 1722. DOI:听

16.听Copper(II) as a Platform for Probing the Steric Demand of Bulky 尾-Diketonates
Larson, A. T.; Crossman, A. S.; Krajewski, S. M.; Marshak, M. P.
Inorg. Chem.2020,听59, 423鈥432. DOI:听

15.听Chelated Chromium Electrolyte Enabling High-Voltage Aqueous Flow Batteries
Robb, B. H.; Farrell, J. M.; Marshak, M. P.听
Joule,听2019. 3, 2503鈥2512. DOI:听

14.听Sterically encumbered 尾-diketonates and base metal catalysis
Krajewski, S. M.; Crossman, A. S.; Akturk, E. S.; Suhrbier, T.; Scappaticci, S. J.; Staab, M. W.; Marshak, M. P.
Dalton Trans.2019.听48, 10714鈥10722. DOI:听

13.听Exploring Real-World Applications of Electrochemistry by Constructing a Rechargeable Lithium Ion Battery
Maharaj, F. D. R.; Wu, W.; Zhou, Y,; Schwanz, L. T.; Marshak, M. P.
J. Chem. Educ.听2019,听96, 3014鈥3017.听DOI:听

12.听Synthesis of Sterically Hindered 尾-Diketones via Condensation of Acid Chlorides with Enolates
Crossman, A. S.; Larson, A. T.; Shi, J. X.; Krajewski, S. M.; Akturk, E. S.; Marshak, M. P.
J. Org. Chem. 2019. 84, 7434鈥7442. DOI:听

11.听Bulky 尾-Diketones Enabling New Lewis Acidic Ligand Platforms
Akturk, E. S.; Scappaticci, S. J.; Seals, R. N.; Marshak, M. P.
Inorg. Chem. 2017. 56, 11466鈥11469. DOI:听

10. My trek back to science
Marshak, M. P.
Science2015,听349, 1406.听DOI:听

Prior to CU

9.听Anthraquinone Derivatives in Aqueous Flow Batteries
Gerhardt, M. R.; Tong, L.;听G贸mez鈥怋ombarelli, R.; Chen, Q.; Marshak, M. P.; Galvin, C. J.; Aspuru-Guzik, A.; Gordon, R. G.; Aziz, M. J.
Adv. Energy Mater.2017.听7, 1601488. DOI:听

8.听Alkaline quinone flow battery
Lin, K.; Chen, Q.; Gerhardt, M. R.; Tong, L.; Kim, S. B.; Eisenach, L.; Valle, A. W.; Hardee, D.; Gordon, R. G.; Aziz, M. J.; Marshak, M. P.
Science 2015, 349, 1529鈥1532. DOI:听

7. Computational design of molecules for an all-quinone redox flow battery
Er, S.; Suh, C.; Marshak, M. P.; Aspuru-Guzik, A.
Chem. Sci.2015,听6, 885鈥893.听鈥婦OI:听

6. Cycling of a Quinone-Bromide Flow Battery for Large-Scale Electrochemical Energy Storage
Huskinson, B.; Marshak, M. P.; Gerhardt, M. R.; Aziz, M. J.
ECS Trans.2014,听61, 27鈥30.听DOI:听

5.听A metal-free organic-inorganic aqueous flow battery
Huskinson, B.; Marshak, M. P.; Suh, C.; Er, S.; Gerhardt, M. R.; Galvin, C. J.; Chen, X.; Aspuru-Guzik, A.; Gordon, R. G.; Aziz, M. J.
Nature2014,听505, 195鈥198.听DOI:听

4. Lewis Bases Trigger Intramolecular CH鈥揃ond Activation: (tBu3SiO)2W=NtBu [rlhar2] (tBu3SiO)(魏O,魏C-tBu2SiOCMe2CH2)HW=NtBu
Marshak, M. P.; Rosenfeld, D. C.; Morris, W. D.; Wolczanski, P. T.; Lobkovsky, E. B.; Cundari, T. R.
Eur. J. Inorg. Chem.2013,听4056鈥4067.听DOI:听

3. Chromium(IV) Siloxide
Marshak, M. P.; Nocera, D. G.
Inorg. Chem.2013,听52, 1173鈥1175.听DOI:听

2. Cobalt in a Bis-尾-diketiminate Environment
Marshak, M. P.; Chambers, M. B.; Nocera, D. G.
Inorg. Chem.2012,听51, 11190鈥11197.听DOI:听

1. Thermodynamics, Kinetics, and Mechanism of (silox)3M(olefin) to (silox)3M(alkylidene) Rearrangements (silox = tBu3SiO; M = Nb, Ta)
Hirsekorn, K. F.; Veige, A. S.; Marshak, M. P.; Koldobskaya, Y.; Wolczanski, P. T.; Cundari, T. R.; Lobkovsky, E. B.
J. Am. Chem. Soc.2005,听127, 4809鈥4830.听DOI:听