Science,迷信 11 AUG 2023, VOL 381, ISSUE 6658
《迷信》2023年8月11日 ,第381卷,出书6658期
生态Ecology
Global water use efficiency saturation due to increased vapor pressure deficit
由于蒸汽压差削减,周论全天上水利勤勉用趋于饱以及
▲ 作者 :FEI LI,文导 JINGFENG XIAO, JIQUAN CHEN, ASHLEY BALLANTYNE, KE JIN, BING LI, MICHAEL ABRAHA, AND RANJEET JOHN
▲ 链接 :
https://www.science.org/doi/full/10.1126/science.adf5041
▲ 摘要 :
在一个大气中二氧化碳浓度不断削减 、气温不断回升的迷信天下里,植物若何在碳的出书削减以及水的损失之间妨碍失调的 。作者钻研表明,周论植物水份利勤勉用 ,文导即光协熏染净罗致碳与蒸腾气孔导度之比,迷信在1982~2000年间呈回升趋向,出书但在2001~ 2016年间坚持巩固 。周论
钻研者批注说 ,文导这是迷信由于蒸气压削减以及蒸发蒸腾减轻的服从。钻研服从从另一个方面剖析了天气变暖的出书倒霉影响使实现碳中以及变患上愈加难题。
▲ Abstract:
How have plants managed the trade‐off between carbon gain and water loss in a world of increasing atmospheric carbon dioxide concentrations and rising temperatures. Li et al. showed that plant water use efficiency,周论 the ratio between the net assimilation of carbon through photosynthesis and the stomatal conductance of transpiration, increased from 1982 to 2000, but then remained constant from 2001 to 2016. The authors interpret this as being the result of increases in the vapor pressure and intensifying evapotranspiration. Their results illustrate one more way in which the adverse effects of climate warming make it more difficult to achieve carbon neutrality.
Declining cost of renewables and climate change curb the need for African hydropower expansion
可再沉闷力老本着落以及善象变更或者抑制非洲水电扩展需要
▲ 作者 :ANGELO CARLINO, MATTHIAS WILDEMEERSCH, CELRAY JAMES CHAWANDA, MATTEO GIULIANI, SEBASTIAN STERL, WIM THIERY, ANN VAN GRIENSVEN, AND ANDREA CASTELLETTI
▲ 链接:
hhttps://www.science.org/doi/full/10.1126/science.adf5848
▲ 摘要 :
在生齿削减以及后退生涯水平目的的增长下 ,特意是在最不发达地域 ,良多非洲国家妄想扩展其发电能耐 ,以知足未来能源需要 。到2050年,非洲总电力需要估量将以每一年5%到6%的速率削减,次若是在撒哈拉以南非洲地域 。
可是 ,非洲能源零星的未来不光受到格外能源需要的驱动 ,还将受到减紧迫顺应答谢天气变更的需要的驱动 。水电黑白洲电力零星的紧张组成部份 ,特意是在撒哈拉以南国家。
它提供了总发电量的20%摆布,但其全副后劲尚未被开拓进去 。传统上被以为是低碳电力的重价源头,全部非洲大陆正在思考兴修300多座水电站 ,至关于格外的100吉瓦发电能耐。
▲ Abstract:
Driven by population growth and the goal of improving living standards, especially in the least-developed regions, many African countries plan to expand their power generation capacities to meet future energy demand. Indeed, total electricity demand is expected to grow by 5 to 6% per year until 2050, mainly in sub-Saharan Africa. Yet the future of African energy systems will not only be driven by the additional energy demand but also by the need to mitigate and adapt to anthropogenic climate change. Hydropower is an important component of African power systems, especially in sub-Saharan countries. It provides around 20% of total electricity generation, but its full potential has not been exploited yet. Traditionally considered a cheap source of low-carbon electricity, more than 300 hydropower plants, corresponding to an additional 100-GW power capacity, are under consideration across the continent.
物理学以及生物物理学Physics & Biophysics
Wafer-scale δ waveguides for integrated two-dimensional photonics
集成二维光子学的晶圆尺度δ波导
▲ 作者 :MYUNGJAE LEE, HANYU HONG, JAEHYUNG YU, FAUZIA MUJID, ANDREW YE, CE LIANG, AND JIWOONG PARK
▲ 链接:
https://www.science.org/doi/full/10.1126/science.adi2322
▲ 摘要 :
芯片级光学电路需要在不断减小的长度尺度以及差距元件之间限度、操作以及转达光的能耐 。处置组件之间的光学不立室个别会导致实际配置装备部署的尺寸以及功能调以及。
作者钻研表明,可能在超薄的二维质料(厚度<1纳米)中限度以及向导光。运用二硫化钼单层,他们捉拿了一束激光,并发生了沿薄膜转达厘米距离的二维光子波 。经由集成微加工薄膜光学元件 ,钻研者揭示了种种光学功能,从而为二维纳米光子学提供了一个通用平台。
▲ Abstract:
Chip-scale optical circuits require the ability to confine, control, and propagate light over ever-decreasing length scales and across different components. Addressing the optical mismatch between components typically results in compromises in size and performance for practical devices. Lee et al. showed that they could confine and guide light in an ultrathin two-dimensional (2D) material (<1 nanometer thick). Using molybdenium disulfide monolayers, they trapped a laser beam and generated a 2D photonic wave propagating along the film over centimeter distances. By integrating microfabricated thin-film optical components, the authors demonstrated various optical functionalities, thereby providing a general platform for 2D nanophotonics.
Bioadhesive polymer semiconductors and transistors for intimate biointerfaces
用于亲密生物界面的生物粘合剂聚合物半导体以及晶体管
▲ 作者 :NAN LI, YANG LI, ZHE CHENG, YOUDI LIU, YAHAO DAI, SEOUNGHUN KANG, SONGSONG LI, NAISONG SHAN, SHINYA WAI, AND SIHONG WANG
▲ 链接