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视感知觉训练对间歇性外斜视患者术后双眼视觉重建的研究进展 被引量:7
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作者 丁艳丽 王玉瑾 +2 位作者 刘勤 王吉翔 苏渲迪 《国际眼科杂志》 CAS 北大核心 2023年第2期244-247,共4页
间歇性外斜视(IXT)是一种发病率高、斜视角度多变、双眼视觉功能不同程度受损的眼科常见疾病。双眼视觉功能缺损与视觉皮层的改变有关,IXT涉及包括双眼融合相关皮质区域在内的多个脑区的功能改变,部分IXT患者在矫正眼位后,大脑皮层的异... 间歇性外斜视(IXT)是一种发病率高、斜视角度多变、双眼视觉功能不同程度受损的眼科常见疾病。双眼视觉功能缺损与视觉皮层的改变有关,IXT涉及包括双眼融合相关皮质区域在内的多个脑区的功能改变,部分IXT患者在矫正眼位后,大脑皮层的异常改变依然存在,双眼视觉的恢复仍然困难。针对这些问题,视感知觉训练逐渐应用到IXT患者术后双眼视觉功能的重建中,视感知觉训练从大脑层面修复视觉皮质,通过不断刺激视觉中枢,提高大脑视皮层处理信息的能力,进而修复视觉中枢功能,使患者获得良好的双眼视觉功能,稳定眼位,减少复发。本文就IXT患者双眼视觉损伤机制以及视感知觉训练在IXT治疗中的作用做一综述。希冀为视感知觉训练重建IXT患者术后双眼视觉功能、降低复发率提供更多证据。 展开更多
关键词 间歇性外斜视 双眼视觉 视觉皮层 视感知觉训练
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A nano-sheet graphene-based enhanced thermal radiation composite for passive heat dissipation from vehicle batteries
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作者 ji-xiang wang Christopher Salmean +5 位作者 Jiaxin Li Chaojie Lei Jun Li Mingliang Zhong Bo Qi Yufeng Mao 《Nano Materials Science》 EI CAS 2024年第4期443-455,共13页
In response to thermal runaway(TR)of electric vehicles,recent attention has been focused on mitigation strategies such as efficient heat dredging in battery thermal management.Thermal management with particular focus ... In response to thermal runaway(TR)of electric vehicles,recent attention has been focused on mitigation strategies such as efficient heat dredging in battery thermal management.Thermal management with particular focus on battery cooling has been becoming increasingly significant.TR usually happened when an electric vehicle is unpowered and charged.In this state,traditional active battery cooling schemes are disabled,which can easily lead to dangerous incidents due to loss of cooling ability,and advanced passive cooling strategies are therefore gaining importance.Herein,we developed an enhanced thermal radiation material,consisting of~1μm thick multilayered nano-sheet graphene film coated upon the heat dissipation surface,thereby enhancing thermal radiation in the nanoscale.The surface was characterized on the nanoscale,and tested in a battery-cooling scenario.We found that the graphene-based coating's spectral emissivity is between 91% and 95% in the mid-infrared region,and thermal experiments consequently illustrated that graphene-based radiative cooling yielded up to15.1% temperature reduction when compared to the uncoated analogue.Using the novel graphene surface to augment a heat pipe,the temperature reduction can be further enlarged to 25.6%.The new material may contribute to transportation safety,global warming mitigation and carbon neutralization. 展开更多
关键词 Battery thermal management Nano-sheet graphene Functional material Passive cooling Thermal radiation
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