Search Results - "Sakamoto, Jeff"

Correlating the interface resistance and surface adhesion of the Li metal-solid electrolyte interface by Wang, Michael, Sakamoto, Jeff

“…Solid electrolytes could enable stable cycling of metallic Li anodes, which can offer drastic increases to the capacity of Li-ion batteries. However, little is…”
Get full text

Intergranular Li metal propagation through polycrystalline Li6.25Al0.25La3Zr2O12 ceramic electrolyte by Cheng, Eric Jianfeng, Sharafi, Asma, Sakamoto, Jeff

“…The potential to enable unprecedented performance, durability, and safety has created the impetus to develop bulk-scale all-solid-state batteries employing…”
Get full text

Elastic, plastic, and creep mechanical properties of lithium metal by Masias, Alvaro, Felten, Nando, Garcia-Mendez, Regina, Wolfenstine, Jeff, Sakamoto, Jeff

“…With the potential to dramatically increase energy density compared to conventional lithium ion technology, lithium metal solid-state batteries (LMSSB) have…”
Get full text

Characterizing the Li–Li7La3Zr2O12 interface stability and kinetics as a function of temperature and current density by Sharafi, Asma, Meyer, Harry M., Nanda, Jagjit, Wolfenstine, Jeff, Sakamoto, Jeff

“…The stability and kinetics of the Li–Li7La3Zr2O12 (LLZO) interface were characterized as a function of temperature and current density. Polycrystalline LLZO…”
Get full text

Enabling “lithium-free” manufacturing of pure lithium metal solid-state batteries through in situ plating by Wang, Michael J., Carmona, Eric, Gupta, Arushi, Albertus, Paul, Sakamoto, Jeff

“…The coupling of solid-state electrolytes with a Li-metal anode and state-of-the-art (SOA) cathode materials is a promising path to develop inherently safe…”
Get full text

Biomimetic 3D-printed scaffolds for spinal cord injury repair by Koffler, Jacob, Zhu, Wei, Qu, Xin, Platoshyn, Oleksandr, Dulin, Jennifer N., Brock, John, Graham, Lori, Lu, Paul, Sakamoto, Jeff, Marsala, Martin, Chen, Shaochen, Tuszynski, Mark H.

“…Current methods for bioprinting functional tissue lack appropriate biofabrication techniques to build complex 3D microarchitectures essential for guiding cell…”
Get full text

Surface Chemistry Mechanism of Ultra-Low Interfacial Resistance in the Solid-State Electrolyte Li7La3Zr2O12 by Sharafi, Asma, Kazyak, Eric, Davis, Andrew L, Yu, Seungho, Thompson, Travis, Siegel, Donald J, Dasgupta, Neil P, Sakamoto, Jeff

“…The impact of surface chemistry on the interfacial resistance between the Li7La3Zr2O12 (LLZO) solid-state electrolyte and a metallic Li electrode is revealed…”
Get full text

Local electronic structure variation resulting in Li ‘filament’ formation within solid electrolytes by Liu, Xiaoming, Garcia-Mendez, Regina, Lupini, Andrew R., Cheng, Yongqiang, Hood, Zachary D., Han, Fudong, Sharafi, Asma, Idrobo, Juan Carlos, Dudney, Nancy J., Wang, Chunsheng, Ma, Cheng, Sakamoto, Jeff, Chi, Miaofang

“…Solid electrolytes hold great promise for enabling the use of Li metal anodes. The main problem is that during cycling, Li can infiltrate along grain…”
Get full text

Elastic Properties of the Solid Electrolyte Li7La3Zr2O12 (LLZO) by Yu, Seungho, Schmidt, Robert D, Garcia-Mendez, Regina, Herbert, Erik, Dudney, Nancy J, Wolfenstine, Jeffrey B, Sakamoto, Jeff, Siegel, Donald J

“…The oxide known as LLZO, with nominal composition Li7La3Zr2O12, is a promising solid electrolyte for Li-based batteries due to its high Li-ion conductivity and…”
Get full text

Effect of Processing Conditions of 75Li2S-25P2S5 Solid Electrolyte on its DC Electrochemical Behavior by Garcia-Mendez, Regina, Mizuno, Fuminori, Zhang, Ruigang, Arthur, Timothy S., Sakamoto, Jeff

“…•The highly conductive thio-LiSICON III analog phase formed when hot pressing LPS between 170–250°C.•The low conductivity Li3PS4 phase formed when hot pressing…”
Get full text

Interfacial Stability of Li Metal–Solid Electrolyte Elucidated via in Situ Electron Microscopy by Ma, Cheng, Cheng, Yongqiang, Yin, Kuibo, Luo, Jian, Sharafi, Asma, Sakamoto, Jeff, Li, Juchuan, More, Karren L, Dudney, Nancy J, Chi, Miaofang

“…Despite their different chemistries, novel energy-storage systems, e.g., Li–air, Li–S, all-solid-state Li batteries, etc., face one critical challenge of…”
Get full text

Demonstration of high current densities and extended cycling in the garnet Li7La3Zr2O12 solid electrolyte by Taylor, Nathan J., Stangeland-Molo, Sandra, Haslam, Catherine G., Sharafi, Asma, Thompson, Travis, Wang, Michael, Garcia-Mendez, Regina, Sakamoto, Jeff

“…Replacing state-of-the-art graphite with metallic Li anodes could dramatically increase the energy density of Li-ion technology. However, efforts to achieve…”
Get full text

Evolving contact mechanics and microstructure formation dynamics of the lithium metal-Li7La3Zr2O12 interface by Chang, Wesley, May, Richard, Wang, Michael, Thorsteinsson, Gunnar, Sakamoto, Jeff, Marbella, Lauren, Steingart, Daniel

“…The dynamic behavior of the interface between the lithium metal electrode and a solid-state electrolyte plays a critical role in all-solid-state battery…”
Get full text

Mechanical and physical properties of LiNi0.33Mn0.33Co0.33O2 (NMC) by Cheng, Eric Jianfeng, Hong, Kicheol, Taylor, Nathan John, Choe, Heeman, Wolfenstine, Jeff, Sakamoto, Jeff

“…Lithium Nickel Manganese Cobalt Oxide (NMC) is one of the most common oxide cathode materials for Li-ion batteries. NMC is also under consideration for use in…”
Get full text

A Tale of Two Sites: On Defining the Carrier Concentration in Garnet-Based Ionic Conductors for Advanced Li Batteries by Thompson, Travis, Sharafi, Asma, Johannes, Michelle D., Huq, Ashfia, Allen, Jan L., Wolfenstine, Jeff, Sakamoto, Jeff

“…Solid electrolytes based on the garnet crystal structure have recently been identified as a promising material to enable advance Li battery cell chemistries…”
Get full text

Mechanical behavior of Li-ion-conducting crystalline oxide-based solid electrolytes: a brief review by Wolfenstine, Jeff, Allen, Jan L., Sakamoto, Jeff, Siegel, Donald J., Choe, Heeman

“…Li-ion-conducting solid electrolytes are receiving considerable attention for use in advanced batteries. These electrolytes would enable use of a Li metal…”
Get full text

Atomic Layer Deposition of the Solid Electrolyte Garnet Li7La3Zr2O12 by Kazyak, Eric, Chen, Kuan-Hung, Wood, Kevin N, Davis, Andrew L, Thompson, Travis, Bielinski, Ashley R, Sanchez, Adrian J, Wang, Xiang, Wang, Chongmin, Sakamoto, Jeff, Dasgupta, Neil P

“…Lithium solid electrolytes are a promising platform for achieving high energy density, long-lasting, and safe rechargeable batteries, which could have…”
Get full text

Microstructure and Li-Ion Conductivity of Hot-Pressed Cubic Li7La3Zr2O12 by David, Isabel N., Thompson, Travis, Wolfenstine, Jeff, Allen, Jan L., Sakamoto, Jeff

“…The effect of hot‐pressing temperature on the microstructure and Li‐ion transport of Al‐doped, cubic Li7La3Zr2O12 (LLZO) was investigated. At fixed pressure…”
Get full text

Regeneration of long-tract axons through sites of spinal cord injury using templated agarose scaffolds by Gros, Thomas, Sakamoto, Jeff S, Blesch, Armin, Havton, Leif A, Tuszynski, Mark H

“…Abstract Previously we reported that templated agarose scaffolds can orient and guide local spinal cord axons after injury. In the present study we examined…”
Get full text

Surface Chemistry of LLZO Garnet Electrolytes with Sulfur in Electron Pair Donor Solvents by Shyamsunder, Abhinandan, Palmer, Max, Kochetkov, Ivan R., Sakamoto, Jeff S., Nazar, Linda F.

“…Conventional Li–S batteries rely on liquid electrolytes based on LiNO3/DOL/DME mixtures that produce a quasistable interface with the lithium anode. Electron…”
Get full text