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Brandon James Hopkins
Brandon James Hopkins
MITRE
Dirección de correo verificada de mitre.org
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Suppressing corrosion in primary aluminum–air batteries via oil displacement
BJ Hopkins, Y Shao-Horn, DP Hart
Science 362 (6415), 658-661, 2018
1762018
Robust 3D Zn sponges enable high-power, energy-dense alkaline batteries
JS Ko, AB Geltmacher, BJ Hopkins, DR Rolison, JW Long, JF Parker
ACS Applied Energy Materials 2 (1), 212-216, 2018
862018
A low-dissipation, pumpless, gravity-induced flow battery
X Chen, BJ Hopkins, A Helal, FY Fan, KC Smith, Z Li, AH Slocum, ...
Energy & Environmental Science 9 (5), 1760-1770, 2016
562016
Fabricating architected zinc electrodes with unprecedented volumetric capacity in rechargeable alkaline cells
BJ Hopkins, MB Sassin, CN Chervin, PA DeSario, JF Parker, JW Long, ...
Energy Storage Materials 27, 370-376, 2020
402020
High-Performance Structural Batteries
BJ Hopkins, JW Long, DR Rolison, JF Parker
Joule 4 (11), 2237-2243, 2020
362020
Projecting the specific energy of rechargeable zinc–air batteries
BJ Hopkins, CN Chervin, JW Long, DR Rolison, JF Parker
ACS Energy Letters 5 (11), 3405-3408, 2020
342020
An Areal‐Energy Standard to Validate Air‐Breathing Electrodes for Rechargeable Zinc–Air Batteries
BJ Hopkins, CN Chervin, JF Parker, JW Long, DR Rolison
Advanced Energy Materials 10 (30), 2001287, 2020
322020
Low-cost green synthesis of zinc sponge for rechargeable, sustainable batteries
BJ Hopkins, CN Chervin, MB Sassin, JW Long, DR Rolison, JF Parker
Sustainable Energy & Fuels 4, 3363-3369, 2020
292020
Component-cost and performance based comparison of flow and static batteries
BJ Hopkins, KC Smith, AH Slocum, YM Chiang
Journal of Power Sources 293, 1032-1038, 2015
262015
Capacity and phase stability of metal-substituted α-Ni (OH) 2 nanosheets in aqueous Ni–Zn batteries
SW Kimmel, BJ Hopkins, CN Chervin, NL Skeele, JS Ko, RH DeBlock, ...
Materials Advances 2, 3060-3074, 2021
172021
Zinc-sponge battery electrodes that suppress dendrites
BJ Hopkins, MB Sassin, JF Parker, JW Long, DR Rolison
JoVE (Journal of Visualized Experiments), e61770, 2020
82020
Quantifying an acceptable open-circuit corrosion current for aluminum–air batteries
BJ Hopkins, DR Rolison
Materials Advances 2, 1595-1599, 2021
62021
Sustainable Electrocatalytic Architectures Enable Rechargeable Zinc–Air Batteries with Low Voltage Hysteresis
CN Chervin, BJ Hopkins, AN Hoffmaster, NL Skeele, JS Ko, JF Parker, ...
ACS Applied Energy Materials 3 (11), 10485-10494, 2020
32020
Mechanical design of flow batteries
BJ Hopkins
Massachusetts Institute of Technology, 2013
32013
Hemodialysis graft resistance adjustment device
BJ Hopkins, H Wu, WH Marks, Q Quan, S Kesner, CK Ozaki, C Walsh
Journal of Medical Devices 6 (2), 021011, 2012
32012
Zinc electrode improvements
BJ Hopkins, JF Parker, JW Long, DR Rolison
US Patent 11,069,889, 2021
22021
Stopping self-discharge in metal-air batteries
BJ Hopkins
Massachusetts Institute of Technology, 2018
22018
Corrosion mitigation of battery electrodes
BJ Hopkins, DP Hart, Y Shao-Horn
US Patent 11,374,226, 2022
12022
Corrosion mitigation in metal-air batteries
BJ Hopkins, DP Hart
US Patent 11,251,475, 2022
12022
An Economical Method for Securely Disintegrating Solid-State Drives Using Blenders
BJ Hopkins PhD, KA Riggle
Journal of Digital Forensics, Security and Law 16 (2), 1, 2021
12021
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