Hirofumi Takami scite author profile

A newly designed radical polymer with a polynorbornene backbone and unsaturated derivative of tetramethylpyrrolidine 1-oxyl (PROXYL) as pendant groups displays reversible redox at 3.75 V (vs Li/Li + ). The robust polymer design enables the high voltage while maintaining a promising cyclability (over 1000 cycles). The polymer is also beneficial as an additive to the regular lithium iron phosphate electrodes, where the quickly responding organic material facilitates the charging reactions catalytically.

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Two-step approach for quasi-optimization of energy storage and transportation at renewable energy site

Harada

Yabe

Takami

et al. 2023

Renewable Energy

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Kinematics of an intervertebral disc with type 1 Modic change: mechanical and non-mechanical causes

Yamada¹,

Morimoto

Maeda³

et al. 2021

Preprint

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BackgroundType 1 Modic change (MC) is associated with chronic low back pain and attributed to segmental instability. However, the relationship between type 1 MC and segmental instability is unclear. This study sought to clarify the role of mechanical abnormalities in type 1 MC.MethodReview of magnetic resonance images obtained for 727 patients over a 1-year period at our institution revealed 161 cases of type 1 MC. In 86 of these, the following indicators of mechanical abnormality could be evaluated on dynamic radiographs: segmental scoliosis (> 5°), forward slippage (> 1%), and posterior disc opening in flexion. Patients with one or more of these abnormalities were allocated to a mechanical group (n = 62, 70%) and those with no abnormality to a non-mechanical group (n = 26, 30%). The Pfirrmann grade of disc degeneration at the affected level was compared between the groups.ResultsSegmental scoliosis, slippage, and posterior opening was observed in 34, 21 and 37 cases, respectively. Severe disc degeneration (grade IV or V) was present in 43 cases (69%) in the mechanical group and in 12 cases (46%) in the non-mechanical group; the difference was statistically significant (p = 0.04).ConclusionWe propose that there are mechanical and non-mechanical variants of type 1 MC.

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Anterior Longitudinal Ligament Avulsion Fracture when Changing the Patient's Position from Lateral to Prone during Extreme Lateral Interbody Fusion: A Case Report

Morimoto

Tomiyama²,

Takeuchi

et al. 2023

Spine Surg Relat Res

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Optimization of Electricity and Hydrogen Storage and Transport at Renewable Energy Sites: A Case Study of Integration into Zero-Emission Power Systems

Harada¹,

Yabe

Takami³

et al. 2022

SSRN Journal

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Hirofumi Takami

A PROXYL‐Type Norbornene Polymer for High‐Voltage Cathodes in Lithium Batteries

Two-step approach for quasi-optimization of energy storage and transportation at renewable energy site

Kinematics of an intervertebral disc with type 1 Modic change: mechanical and non-mechanical causes

Anterior Longitudinal Ligament Avulsion Fracture when Changing the Patient's Position from Lateral to Prone during Extreme Lateral Interbody Fusion: A Case Report

Optimization of Electricity and Hydrogen Storage and Transport at Renewable Energy Sites: A Case Study of Integration into Zero-Emission Power Systems

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