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Michael P. Marshak
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A metal-free organic-inorganic aqueous flow battery
B Huskinson, MP Marshak, C Suh, S Er, MR Gerhardt, CJ Galvin, X Chen, ...
Nature 505 (7482), 195-198, 2014
15652014
Alkaline quinone flow battery
K Lin, Q Chen, MR Gerhardt, L Tong, SB Kim, L Eisenach, AW Valle, ...
Science 349 (6255), 1529-1532, 2015
9992015
Computational design of molecules for an all-quinone redox flow battery
S Er, C Suh, MP Marshak, A Aspuru-Guzik
Chemical Science 6 (2), 885-893, 2015
4282015
Anthraquinone derivatives in aqueous flow batteries
MR Gerhardt, L Tong, R Gómez‐Bombarelli, Q Chen, MP Marshak, ...
Advanced Energy Materials 7 (8), 1601488, 2017
2442017
Thermodynamics, Kinetics, and Mechanism of (silox) 3M (olefin) to (silox) 3M (alkylidene) Rearrangements (silox= tBu3SiO; M= Nb, Ta)
KF Hirsekorn, AS Veige, MP Marshak, Y Koldobskaya, PT Wolczanski, ...
Journal of the American Chemical Society 127 (13), 4809-4830, 2005
1002005
Chelated Chromium Electrolyte Enabling High-Voltage Aqueous Flow Batteries
BH Robb, JM Farrell, MP Marshak
Joule 3 (10), 2503-2512, 2019
802019
Effect of Chelation on Iron–Chromium Redox Flow Batteries
SE Waters, BH Robb, MP Marshak
ACS Energy Letters 5 (6), 1758-1762, 2020
672020
Cycling of a Quinone-Bromide Flow Battery for Large-Scale Electrochemical Energy Storage
B Huskinson, MP Marshak, MR Gerhardt, MJ Aziz
ECS Transactions 61 (37), 27-30, 2014
582014
Cobalt in a Bis-β-diketiminate Environment
MP Marshak, MB Chambers, DG Nocera
Inorganic Chemistry 51 (20), 11190-11197, 2012
332012
Open for Bismuth: Main Group Metal-to-Ligand Charge Transfer
LA Maurer, OM Pearce, FDR Maharaj, NL Brown, CK Amador, ...
Inorganic Chemistry 60 (14), 10137-10146, 2021
232021
Chromium (IV) Siloxide
MP Marshak, DG Nocera
Inorganic chemistry 52 (3), 1173-1175, 2013
232013
Holistic design principles for flow batteries: Cation dependent membrane resistance and active species solubility
SE Waters, JR Thurston, RW Armstrong, BH Robb, MP Marshak, D Reber
Journal of Power Sources 520, 230877, 2022
222022
Bulky β-Diketones Enabling New Lewis Acidic Ligand Platforms
ES Akturk, SJ Scappaticci, RN Seals, MP Marshak
Inorganic Chemistry 56 (19), 11466-11469, 2017
222017
Evaluating aqueous flow battery electrolytes: a coordinated approach
BH Robb, SE Waters, MP Marshak
Dalton Transactions 49 (45), 16047-16053, 2020
212020
Synthesis of Sterically Hindered β-Diketones via Condensation of Acid Chlorides with Enolates
AS Crossman, AT Larson, JX Shi, SM Krajewski, ES Akturk, MP Marshak
The Journal of organic chemistry 84 (11), 7434-7442, 2019
172019
Sterically encumbered β-diketonates and base metal catalysis
SM Krajewski, AS Crossman, ES Akturk, T Suhrbier, SJ Scappaticci, ...
Dalton Transactions 48 (28), 10714-10722, 2019
172019
Exploring Real-World Applications of Electrochemistry by Constructing a Rechargeable Lithium-Ion Battery
FDR Maharaj, W Wu, Y Zhou, LT Schwanz, MP Marshak
Journal of Chemical Education 96 (12), 3014-3017, 2019
162019
Realized potential as neutral pH flow batteries achieve high power densities
BH Robb, SE Waters, JD Saraidaridis, MP Marshak
Cell Reports Physical Science 3 (11), 101118, 2022
122022
Mediating anion-cation interactions to improve aqueous flow battery electrolytes
D Reber, JR Thurston, M Becker, GF Pach, ME Wagoner, BH Robb, ...
Applied Materials Today 28, 101512, 2022
122022
Copper (II) as a Platform for Probing the Steric Demand of Bulky β-Diketonates
AT Larson, AS Crossman, SM Krajewski, MP Marshak
Inorganic Chemistry 59 (1), 423-432, 2020
122020
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Articles 1–20