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缠绵入骨全文阅读冲缠绵入骨最新章节冲现代言情-九阅小说

南瓜影院

首发2024-07-13 13:04·卡拉迷讲车

2024年12月26日，说起中国南北方的饮食，最大的差异莫过于主食，南方人吃米，北方人吃面，那么米和面哪个更让人发胖？

缠绵入骨全文阅读冲缠绵入骨最新章节冲现代言情-九阅小说

2024-07-15 15:39·光明网

他凭借节目中的表现参加多个央视热门综艺节目的录制，知名度和人气提升了不少。《等着我》 20170507_CCTV节目官网-CCTV-1_央视网(cctv.com)

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箩颈苍驳耻补苍蝉耻虫颈补苍驳尘补辞测颈箩颈苍驳濒颈蝉丑颈，诲补苍迟补诲别箩颈补谤别苍谤别苍驳锄补颈苍耻濒颈飞别颈迟补虫耻苍辩颈耻锄丑别苍驳测颈，迟补尘别苍诲别虫颈苍驳诲辞苍驳，产耻箩颈苍蝉丑颈诲耻颈蝉耻虫颈补苍驳尘补辞诲别箩颈苍颈补苍，测别蝉丑颈诲耻颈辩颈迟补办别苍别苍驳锄补辞蝉丑辞耻虫颈补苍驳蝉颈尘颈苍驳测耻苍诲别谤别苍诲别测颈虫颈别迟颈虫颈苍驳丑别产补苍驳锄丑耻。蝉耻辞测颈苍颈丑耻颈蹿补虫颈补苍，苍补苍谤别苍丑耻颈驳别苍苍颈产补颈濒补苍，蝉丑别苍锄丑颈驳别锄丑辞苍驳诲耻颈办补苍驳，测耻箩颈补产颈补苍产别苍箩颈补濒颈濒颈补辞。

7、张(窜丑补苍驳)乔(蚕颈补辞)耳(贰谤)

ITzhijiaciqianbaodao，iPhone 15 xiliedewaiguanchicunxiangbi iPhone 14 xiliejibenbubian，danbiankuanghuigengzhaiyixie。《kexue》（20220107chuban）yizhoulunwendaodu2022-01-09 19:59·kexuewangbianyi | weijiuScience, 7 JANUARY 2022, VOL 375, ISSUE 6576《kexue》2022nian1yue7ri，di375juan，6576qiwulixuePhysicsEvidence for a delocalization quantum phase transition without symmetry breaking in CeCoIn5CeCoIn5feiduichengpoqueliyuliangzixiangbiandezhengju▲ zuozhe：NIKOLA MAKSIMOVIC, DANIEL H. EILBOTT, TESSA COOKMEYER, FANGHUI WAN, JAN RUSZ, VIKRAM NAGARAJAN, et al.▲ lianjie：https://www.science.org/doi/10.1126/science.aaz4566▲ zhaiyaoliangzixiangbianyanjiuyuduichengpoquemeiyoumingxianguanlian，zheshiningjutaiwulixuedeyigezhongdayanjiufangxiang，tebieshigaowenchaodaowenti，zhezhongxiangbianbeirenweishichaodaojizhibenshendejichu。yanjiuzurenweizaidianxingdefeichangguichaodaotiCeCoIn5zhong，jiadingdeliangzilinjiedianyoulianjielianggebutongtijifeimimianyueqianzhongdedianziliyusuobiaozheng，meiyoumingxiandeduichengpoque。liyongyijianlidef-dianzijinshulilun，yanjiuzutaolunliaoruhejieshizhezhongshejizixuan-dianhefenlideyueqian，gaimoxingkeyouxiaomiaoshutamencelianghuoerxiaoyingdeyichangshuyunxingwei。▲ AbstractThe study of quantum phase transitions that are not clearly associated with broken symmetry is a major effort in condensed matter physics, particularly in regard to the problem of high-temperature superconductivity, for which such transitions are thought to underlie the mechanism of superconductivity itself. Here we argue that the putative quantum critical point in the prototypical unconventional superconductor CeCoIn5 is characterized by the delocalization of electrons in a transition that connects two Fermi surfaces of different volumes, with no apparent broken symmetry. Drawing on established theory of f-electron metals, we discuss an interpretation for such a transition that involves the fractionalization of spin and charge, a model that effectively describes the anomalous transport behavior we measured for the Hall effect.cailiaokexueMaterials ScienceSingle-walled zeolitic nanotubesdanbifenzishainamiguan▲ zuozhe：AKSHAY KORDE, BYUNGHYUN MIN, ELINA KAPACA, OMAR KNIO, IMAN NEZAM, ZIYUAN WANG, et al.▲ lianjie：https://www.science.org/doi/10.1126/science.abg3793▲ zhaiyaoyanjiuzubaodaoliaojuyouweikongfenzishaibidedanbiguisuanlvnamiguandehechenghejiegou。zhezhongzhunyiweifenzishaiyoubolaxingjiegoudaoxiangji（SDA）zuzhuangercheng，gaifenzishaihanyouyigezhongxinlianbenjituan，youC10wanjilianlianjiedaokuininghuanduanji。gaofenbianlvdianzixianweijingheyanshejiqitazhichifangfajieshiliaoyizhongdutedebijiegou，tashiliangzhongfenzishaijiegouleixing（βheMFI）detezhenggoujiancengdehunheti。zhezhonghunhejiegouchanshengyuwanqunamiguanbixingchengguochengzhongyingbiannengdezuixiaohua。youyuSDAfenzidezizuzhuang，namiguandexingchengdaozhijieguanjiegoudezaoqichuxian。SDAfenzidelianbenhexinjituanzhengmingliaoπduiji，waiweidekuininghuanjituanzezhengmingliaoweikongbijiegou。▲ AbstractWe report the synthesis and structure of single-walled aluminosilicate nanotubes with microporous zeolitic walls. This quasi-one-dimensional zeolite is assembled by a bolaform structure-directing agent (SDA) containing a central biphenyl group connected by C10 alkyl chains to quinuclidinium end groups. High-resolution electron microscopy and diffraction, along with other supporting methods, revealed a unique wall structure that is a hybrid of characteristic building layers from two zeolite structure types, beta and MFI. This hybrid structure arises from minimization of strain energy during the formation of a curved nanotube wall. Nanotube formation involves the early appearance of a mesostructure due to self-assembly of the SDA molecules. The biphenyl core groups of the SDA molecules show evidence of π stacking, whereas the peripheral quinuclidinium groups direct the microporous wall structure.Metastable Dion-Jacobson 2D structure enables efficient and stable perovskite solar cellsyawentaiDion-Jacobsonerweijiegoushixiangaoxiaowendingdegaizuokuangtaiyangnengdianchi▲ zuozhe：FEI ZHANG, SO YEON PARK, CANGLANG YAO, HAIPENG LU, SEAN P. DUNFIELD, CHUANXIAO XIAO, et al.▲ lianjie：https://www.science.org/doi/10.1126/science.abj2637▲ zhaiyaosanwei（3D）youji-wujiluhuawugaizuokuangtaiyangnengdianchi（PSC）dexingnengketongguoshiyongjuyougaoxiaodianhechuanshude2Dcengzhuanggaizuokuangjinxingbiaomianchulilaizengqiang。yanjiuzuzuidahualiaoyawentaiDion-Jacobson（DJ）2Dgaizuokuangcengdekongxuechuanshu，diaozhengliaobuduichengdatijiyoujifenzidedingxiangpailie。kongxuechuanshudenengleijiangdihou，mianwaichuanshusulvtigaoliao4~5bei，2D PSCdedianyuanzhuanhuanxiaolv（PCE）wei4.9%。tongguoyawentaiDJ 2Dbiaomianceng，sanzhongchangjian3D PSCdePCEtigaoliaodayue12%~16%，zuizhongkegaodayue24.7%。duiyusanyuanyanglizihunheluhuawuPSC，zaiyue40℃dedanqizhong，yibeitaiyangguangqiangzhaoshe1000xiaoshihou，chushiPCErengkebaochi90%。▲ AbstractThe performance of three-dimensional (3D) organic-inorganic halide perovskite solar cells (PSCs) can be enhanced through surface treatment with 2D layered perovskites that have efficient charge transport. We maximized hole transport across the layers of a metastable Dion-Jacobson (DJ) 2D perovskite that tuned the orientational arrangements of asymmetric bulky organic molecules. The reduced energy barrier for hole transport increased out-of-plane transport rates by a factor of 4 to 5, and the power conversion efficiency (PCE) for the 2D PSC was 4.9%. With the metastable DJ 2D surface layer, the PCE of three common 3D PSCs was enhanced by approximately 12 to 16% and could reach approximately 24.7%. For a triple-cation–mixed-halide PSC, 90% of the initial PCE was retained after 1000 hours of 1-sun operation at ~40°C in nitrogen.Capturing the swelling of solid-electrolyte interphase in lithium metal batteriesguancezuojinshudianchigutidianjiezhizhongjianxiangdepengzhang▲ zuozhe：ZEWEN ZHANG, YUZHANG LI, RONG XU, WEIJIANG ZHOU, YANBIN LI, SOLOMON T. OYAKHIRE, et al.▲ lianjie：https://www.science.org/doi/10.1126/science.abi8703▲ zhaiyaojinguanye-gujiemianshiguangfankexuelingyudejichu，danyouyuxianyougongjuzainamichidushangtongshijinruyexiangheguxiangcunzaiquexian，yincibiaozhengzhezhongweimiaodejiemianrengranhenkunnan。zhedaozhirenmenduidianchitixiguanjianjiemiandejiegouhehuaxuexingzhidelijiecunzaihendachaju。yanjiuzucaiyongbinggailiangliaoyizhongbaomobolihuafangfa，zaitianranyetidianjiezhihuanjingzhongbaohudianchizhongminganerguanjiandejiemian，yishixiandiwendianzixianweijingheguangpuxueguance。tamenbaodaoliaogezhongdianjieyezhongzuojinshufujishangdegutidianjiezhizhongjianxiang（SEI）cunzaidaliangpengzhang。pengzhangxingweiqujueyudianjiezhidehuaxuexingzhi，qieyudianchixingnenggaoduxiangguan。jiaogaochengdudeSEIpengzhangwangwangbiaoxianchujiaochadedianhuaxuexunhuan。▲ AbstractAlthough liquid-solid interfaces are foundational in broad areas of science, characterizing this delicate interface remains inherently difficult because of shortcomings in existing tools to access liquid and solid phases simultaneously at the nanoscale. This leads to substantial gaps in our understanding of the structure and chemistry of key interfaces in battery systems. We adopt and modify a thin film vitrification method to preserve the sensitive yet critical interfaces in batteries at native liquid electrolyte environments to enable cryo–electron microscopy and spectroscopy. We report substantial swelling of the solid-electrolyte interphase (SEI) on lithium metal anode in various electrolytes. The swelling behavior is dependent on electrolyte chemistry and is highly correlated to battery performance. Higher degrees of SEI swelling tend to exhibit poor electrochemical cycling.diqiukexueEarth ScienceOn the relative temperatures of Earth’s volcanic hotspots and mid-ocean ridgesdiqiuhuoshanredianhedayangzhongjidexiangduiwendu▲ zuozhe：XIYUAN BAO, CAROLINA R. LITHGOW-BERTELLONI, MATTHEW G. JACKSON, AND BARBARA ROMANOWICZ▲ lianjie：https://www.science.org/doi/10.1126/science.abj8944▲ zhaiyaohuoshanredianbeirenweishiyoulaizishenbudizuoderede、huoyuedeshangshengyuliugonggeide，qiguoyuwendu（Tex）bidayangzhongjigaoyue100~300℃。raner，Texdegujibeixianzhizaidilifugaifanweinei，qieduiyudangeredianwangwangbuyizhi。yanjiuzutongguojiangdizhensuduzhuanhuanweiwendulaitongshituiduanhaiyangredianheyangjidewendu。tamenbiaoming，suiranyue45%deyuliugonggeiredianhenre（Tex≥155℃），danyue15%jiaoleng（Tex≤36℃），qieyue40%dewendubuzuyicongshenbudizuozhudongshangyong（50℃≤Tex≤136℃）。redianjuyoujigaodehai-3/hai-4bilvhefulitongliang，danjiaolengderedianzeburan。houzhekenengqiyuanyushangdizuoshenchu，huogonggeitamendeshenyuliubeixiaoguimoduiliujiadaihelengque。▲ AbstractVolcanic hotspots are thought to be fed by hot, active upwellings from the deep mantle, with excess temperatures (Tex) ~100° to 300°C higher than those of mid-ocean ridges. However, Tex estimates are limited in geographical coverage and often inconsistent for individual hotspots. We infer the temperature of oceanic hotspots and ridges simultaneously by converting seismic velocity to temperature. We show that while ~45% of plume-fed hotspots are hot (Tex ≥ 155°C), ~15% are cold (Tex ≤ 36°C) and ~40% are not hot enough to actively upwell (50°C ≤ Tex ≤ 136°C). Hot hotspots have an extremely high helium-3/helium-4 ratio and buoyancy flux, but cold hotspots do not. The latter may originate at upper mantle depths. Alternatively, the deep plumes that feed them may be entrained and cooled by small-scale convection.gonggongweishengPublic HealthImmune correlates analysis of the mRNA-1273 COVID-19 vaccine efficacy clinical trialmRNA-1273xinguanyimiaoxiaolilinchuangshiyandemianyixiangguanfenxi▲ zuozhe：PETER B. GILBERT, DAVID C. MONTEFIORI, ADRIAN B. MCDERMOTT, YOUYI FONG, DAVID BENKESER, WEIPING DENG, et al.▲ lianjie：https://www.science.org/doi/10.1126/science.abm3425▲ zhaiyaoguanzhuangbingduxiaoli（COVE）3qilinchuangshiyanpingguliaoyimiaojiezhongzhedezhonghekangtihejiehekangti，bingyuCOVID-19jibingfengxianhebaohuzuoyongxiangguanlian。zaidiercijiezhongyimiaoshihe4zhouhouceliangzhexiemianyibiaojiwu，qieshuzhiyibiaozhunhuadeshijieweishengzuzhiguojidanweibaogao。suoyoubiaozhiwuduyuCOVID-19fengxianchengfuxiangguan，bingyuyimiaoxiaolizhijiexiangguan。jiezhonghou50%zhonghediduwei10、100he1000deyimiaojiezhongzhegujiyimiaoxiaolifenbiewei78%、91%he96%。zhexiejieguoyouzhuyuquedingyubaohuxiangguandemianyibiaojiwu，bingyouwangzhidaoxinshiRNA（mRNA）COVID-19yimiaoheqitaCOVID-19yimiaodepizhunjuece。▲ AbstractIn the coronavirus efficacy (COVE) phase 3 clinical trial, vaccine recipients were assessed for neutralizing and binding antibodies as correlates of risk for COVID-19 disease and as correlates of protection. These immune markers were measured at the time of second vaccination and 4 weeks later, with values reported in standardized World Health Organization international units. All markers were inversely associated with COVID-19 risk and directly associated with vaccine efficacy. Vaccine recipients with postvaccination 50% neutralization titers 10, 100, and 1000 had estimated vaccine efficacies of 78% (95% confidence interval, 54 to 89%), 91% (87 to 94%), and 96% (94 to 98%), respectively. These results help define immune marker correlates of protection and may guide approval decisions for messenger RNA (mRNA) COVID-19 vaccines and other COVID-19 vaccines.

元(驰耻补苍)凶(齿颈辞苍驳)竟(闯颈苍驳)在(窜补颈)丈(窜丑补苍驳)夫(贵耻)身(厂丑别苍)上(厂丑补苍驳)

新浪财经：财富管理已成为当前银行业的兵家必争之地。您认为与其他类型财富管理机构相比，银行在竞争中具有哪些优势？在加快推进向“财富管理银行”转型过程中，贵行如何突破同质化竞争？近1个月以来（2024年6月11日~7月9日），降水量淮北地区296.4毫米，江淮之间236.3毫米，苏南地区273毫米；与常年同期相比，淮北地区偏多7.5成，江淮之间偏多1.1成，苏南地区偏多1.2成。缠绵入骨全文阅读冲缠绵入骨最新章节冲现代言情-九阅小说

不给其他国产手机留活路红米Note5测评：最强千元全面屏2018-03-26 17:33·安卓中国如果说去年是手机圈全面屏的元年那么今年就是全面屏+AI（人工智能）的元年3月16日下午两点红米再发千元新机——红米Note 5这次红米Note 5更是把AI这一在去年部分旗舰机身上才具备的新玩法拉到了千元机市场一直以来红米以及红米Note系列给人的第一印象就是便宜、耐用、续航好、做工扎实等等在市场上的口碑一直不错那么红米Note 5的整体表现如何呢国际惯例先放参数上面就是红米Note 5的相关数据不知各位小伙伴有没有观察到红米Note 5的AI部分重点出现在拍照部分呢是的因为此前红米全系列产物的拍照部分一直都不是太尽如人意那么经过AI双摄加持的红米Note 5是否能弥补红米这一短板呢下面就笔者这台红米Note 5（4GB RAM+64GB ROM）我们细细解剖外观：经久耐看型选手在开讲外观之前笔者要稍稍吐槽一下红米Note 5此次配备的取卡针这取卡针优秀的拿下笔者见过最精致取卡针称号好了言归正传笔者此次拿到是黑色版本的红米Note 5除该配色外红米Note 5还提供金色、蓝色和玫瑰金三种颜色任君选择红米Note 5正面采用疑似与红米5 Plus完全相同的屏幕同尺寸（5.99英寸）的18:9全面屏屏幕分辨率为FHD+（1080×2160）最高亮度450nit对比度1000:1NTSC色域高达84%各种参数都与此前的红米5 Plus完全相同当然笔者此前的中就曾说过这块屏幕在点亮屏幕那一刻就给人一种很细腻色彩很饱满的感觉总的来说在同价位机型中红米Note 5这块全面屏的屏幕素质还是让人满意的虽说红米Note 5的全面屏素质已经不输于其它同价位的机型但就机身三围与同一价位的众多全面屏机型相比红米Note 5机身整体就会显得稍微修长一点当然这也仅是毫厘之差并不会对日常使用造成什么影响回到手机正面与现在市面上众多机型一样红米Note 5正面采用2.5D的水滴屏设计与机身背部较大的弧度处理相呼应整机握持时会十分贴合手掌无论握持姿势怎么改变都不会出现硌手的感觉红米Note 5正面额头开孔从左到右依次是前置1300万像素摄像头、听筒、光线传感器、前置柔光灯以及呼吸灯由于笔者拿到的是黑色版本的红米Note 5正面额头开孔除了前置相机以及听筒清晰可见外（前置柔光灯隐约可见）呼吸灯、光线传感器都被很好的隐藏起来对于一体感有追求的用户黑色版本是你最好的选择点亮屏幕后会发现红米Note 5与现在绝大部分的全面屏手机一样为了方便单手操作正面下巴的三个按键被虚拟按键所取代当然MIUI也为对虚拟按键反感的用户提供了全面屏手势（系统部分详细讲）与众多全面屏机型一样红米Note 5也是采用指纹识别后置的方案将指纹识别模块放置与手机背部中上部分不过指纹识别上面不再是摄像模组摄像模组被移到了背部左上角的位置成像模组是红米Note系列首次采用的双摄成像方案该成像模组从上到下依次是500万像素摄像头、双色温闪光灯、1200万像素摄像头（至于该成像素质如何我们下面的相机部分见）而后手机背部下半部分就一个MI Logo静置其中再看手机底部此次红米Note 5底部相较于其它红米机型就显得热闹了不少因为红米系列一直在机身顶部的耳机孔终于挪到了底部；正面朝上底部开孔从左到右依次是3.5mm耳机接口、麦克风、microUSB充电接口、外放然后看手机右侧依旧是小米全系列传统三按键位于手机边框中上部分下到上依次是电源键、音量加减键然后到手机顶部因为3.5mm耳机孔的下移红米Note 5顶部简洁了不少不过好在广受好评的红外传感器依旧得以保留配合现在的小米智能家居场景可以实现一个手机控制家用电器同样红外传感器旁边还有一个次麦克风再看机身左侧仅有一个卡槽开孔十分简洁此卡槽为与或卡槽支持双卡双待全网通5.0或单卡全网通加最高128GB的microSD卡扩展虽说红米Note 5的机身设计在目前同价位机型中并不算优秀背部采用的也是传统三段式机身设计但其手感并不会让消费者感到廉价前面板的2.5D面板与背部较大的弧度相结合可以很好的提升整机的握持感另外红米Note 5的整体设计在笔者看来的确属于一款第一眼看不上但上手把玩过后又会感到很耐看的机型一句话总结红米Note 5的外观那就是经久耐看型选手系统：美、全但不足MIUI国内最优秀的操作系统之一红米Note 5出厂预装最新的MIUI 9稳定版并且还是基于最新Android 8.1深度定制的MIUI 9.5.4.0上面曾提过红米Note 5因为采用全面屏的设计为了方便单手操作正面下巴的三个按键被挪至屏幕内采用虚拟按键将其取代但是MIUI团队也为对虚拟按键反感的用户提供了全面屏手势在设置——全面屏选项中可以将虚拟按键切换成全面屏手势从屏幕底部上滑可回主页左右两边向屏幕内滑动可以实现返回上划悬停实现多任务操作回到系统界面相信熟悉MIUI的用户多多少少对MIUI 9都有点了解上次笔者对红米5 Plus的评测中就有对MIUI 9分屏、负一屏以及传送门等功能做了详细解说这次笔者就红米Note 5的体验继续解说上次没有提到的几点首先因为此次是基于Android 8.1的MIUI 9就流畅度来将比此前的红米5 Plus有着较为明显的提升（这可能与搭载的骁龙636移动平台有关下面的性能部分会详解）在打开两个大型游戏软件、八个日常使用软件、四个自带软件的情况下机身内存还剩1.8G软件之间的切换依旧顺畅如果认为4G RAM不够用的同学可以选购6GB RAM版本的红米Note 5相信用过MIUI 9的同学都有用过其中的传送门这一功能但你们又是否用过相册搜索这一功能呢这一功能一样在MIUI实验室中开启顾名思义此功能就是可以让用户在众多杂乱的相册中进行照片检索实测MIUI 9的自动识别功能很强大笔者在2015年拍的银行卡都能在近两万张照片中快速检索出来相信人工智能也不外乎如此吧说到人工智能就不得不提此次红米Note 5发布会上重点讲的AI相机了红米Note 5的AI相机可不仅仅表现在拍照上其前置相机更是能将此次红米Note 5用上的人脸解锁功能进行高精度智能匹配实现快速、安全的人脸解锁在密码设置选项中你可以看到红米系列首次用上的添加人脸数据选项添加完成后从亮屏到解锁一气呵成想想其后置指纹模块这几天貌似仅在支付宝指纹支付以及拍照时才用上用上人脸解锁后真的感觉回不去了相信看到上文笔者指纹支付仅用支付宝感到疑惑了吧是的笔者在这周的体验中在微信支付过程中总是老老实实的输入六位数字不知出于什么原因红米Note 5仍不能使用微信指纹支付在这一周的体验中笔者已经养成了尽量不使用微信支付这一好习惯左：有指纹支付界面 || 右：红米Note 5微信无指纹支付2010年4月6日至今MIUI走过了将近八年的笔者也可以说是见证了MIUI的成长从刚开始的内测100人到现在超过3亿的用户MIUI一步一脚印的走到MIUI 9实属不易MIUI好不好用好用；MIUI功能如何齐全但是在笔者体验红米Note 5这段时间里该系统依旧存在着不少的问题MIUI 9的广告虽然大部分都能选择关闭但这对刚开始使用的MIUI的用户增加不少使用成本另外相信MIUI会在后续版本中加入红米Note 5对微信指纹支付的支持性能与续航：完全出乎意料性能方面红米Note 5中国首发骁龙636移动平台该移动平台在CPU部分采用八个Kryo 260架构核心『4×A73（1.8GHz）+4×A53（1.6GHz）』相较于此前红米5 Plus所用的骁龙630性能整体提升40%配合全新的Adreno 509 GPU、14nm FinFet工艺制程等特性简直就是一款降频版的骁龙660除以上说的几点重大提升外骁龙636的基带（X12 LTE调制解调器）较骁龙630也是有着不少的提升骁龙X12调制解调器的LTE下行链路传输速度比上一代要快2倍这也就是说你在用流量下载大型文件时可以达到更快的速度同时下载多个文件也能实现速度一致另外此次骁龙636移动平台也用上了去年骁龙660的Spectra 160 ISP所以此次红米Note 5在拍照上会有进一步的提升（下文的拍照部分会详说）溜完数据后直接看游戏实测性能游戏之前我们先来看看各位熟知的三平台跑分数据下面直接看图：左：安兔兔 ||中：3D Mark || 右：GeekBench从上图可以看到就性能而言骁龙636于此前的骁龙630相比提升可不止一个等级下面笔者就以《王者荣耀》以及《全民出击：刺激战场》这两个游戏作为性能上的直观体现首先先来看看《全民出击：刺激战场》表现如何《全民出击：刺激战场》默认均衡画质第一局没有开启高帧率模式流畅运行跳车、切枪、瞄人一气呵成最后成功吃鸡第二局打开高帧率模式画质调成高清模式后在切枪瞄人的瞬间会感到明显的顿一下其它时间也能流畅运行到《王者荣耀》的测试中笔者默认开启高帧率模式、高清画质在高画质和高帧率的模式下操作时在深渊以及大峡谷中一般情况下能稳定在59-61帧之间打团时会掉到52-55帧说实话骁龙636在这一轮性能测试中能达到这个水准真的让笔者大吃一惊《王者荣耀》和《全民出击：刺激战场》这两个游戏的表现已经达到了去年骁龙660的水准有了强悍的性能后红米Note 5的续航也跟上了该机配备一块与红米5 Plus一样的4000mAh大电池讲真在给红米Note 5做续航测试的时候笔者真的崩溃了手机音量66%、连着WiFi、打开4G、亮度50%的情况下《全民出击：刺激战场》一小时耗电12%《王者荣耀》一小时耗电10%纯待机10小时耗电3%充满电刷剧看番12小时才把电耗光笔者体验一周里正常使用两天一充那是杠杠的当然如果你是重度用户的话一天一充还是跑不了的（标配10W充电器：无快充）（快充）续航有惊喜了那充电速度呢红米Note 5标配充电器最高支持5V/2A从5%到充满电耗时135分钟在现在这个快充横行的时代这样的充电速度着实让人有点烦躁不过红米Note 5是有彩蛋的实测红米Note 5支持QC 3.0快充100分钟左右就可充满在这里笔者要强烈安利一下现在用的这个充电头（最高24W的充电功率）支持高通QC3.0/2.0支持MTK的PEP1.1/2.0也能实现PE快充那么这个充电头在哪能买到呢感兴趣的小伙伴可以到『潮老师和机哥的店铺』去下单购入了19.9元还包邮哦（注：这充电头对红米5 Plus也是支持的）拍照：千元机少有敌手从硬件层级来看此次红米Note 5搭载的骁龙636移动平台挂载的14 位 Qualcomm Spectra 160 ISP 最高支持捕捉2400万像素而不产生任何快门延迟此外它还可提供平滑变焦、快速自动对焦和逼真色彩有效改善图片质量另外红米Note 5前置1300万（搭载基于AI算法的单摄背景虚化）像素摄像头后置1200万（1.4μm/Dual PD/f1.9光圈）+500万（主要用于记录景深信息）像素摄像头值得一提的是红米Note 5是小米首次用上Dual PD双核对焦的机型既然红米Note 5在成像系统方面有着这么大的提升下面我们就从实拍样张来看看红米Note 5是否已经补足红米有史以来的命门吧首先我们先从日间户外成像室内成像夜间成像看红米Note 5后置成像系统能达到怎样的地步（户外成像）（日间室内成像）以上成像均为直出样片未开启手动模式从上面的样片可以看出红米Note 5在成像系统上真的是下苦功夫了先看户外样片天空一改此前曝光过度或整体细节不足的问题就算放到楼宇细节来看也不会出现以前涂抹过度的现象再看室内成像地铁内光线较暗对焦时钟发光位置不会出现白平衡失准的情况光源控制得很好就算放大来拍暗部的细节也能得以保留看来此次1.4μm大像素的加入的确能保留更多的暗部细节（室内成像：景深模式）（夜间成像）值得一提的是从室内的景深模式（人像模式）来看红米Note 5一改小米以往对绿色调教过度的喜好此次并未出现绿色过于饱和的情况但景深还是有待提升偶尔会出现背景虚化失衡的问题这会让人有点捉急再看最考量一部手机成像优化到底是否优秀的夜间成像部分就夜间成像的亮度而言红米Note 5已经达到发布会是所说的优秀但就细节来看的话可以看到夜间的楼体边缘还是会出现涂抹过度的问题所以如果对仅仅是拍夜间美景用来发一发朋友圈的用户来说红米Note 5确实是一部在成像方面没有任何短板的机型甚至比高一价位的机型还要优秀看完其后置再看看红米Note 5的前置1300万（搭载基于AI算法的单摄背景虚化）像素摄像头又怎样的成像素质吧这里有点要稍微提一下红米Note 5的前置摄像系统除了加入对支持人脸解锁外也是首次在手机前置加入HDR这一功能下面我们就直接放样张（前置自拍）（前置虚化）从上面小凡的照片可以看到红米Note 5前置自拍在针对人脸不同区域确实有着不同的美化策略（前置柔光灯在暗光时自动开启前置HDR功能在逆光时自动开启）在红米Note 5的AI算法加持下小姐姐的眼神显得更加的有神气质更佳再看前置虚化（因小姐姐不在只能由小哥哥顶上怕造成不适的影响已打码）从头发边缘的抠图来看前置的主体边缘识别比后置的更准确效果更真实所以后置的算法能不能再好好优化一下呢总的来说红米Note 5的成像风格在红米所有系列机型中确实属于独领风骚的存在其优秀的日间成像素质优秀的前置虚化如果在夜间成像方面能把细节保留得再多一点那么该机就不只是在同价位机型中找对手了总结：值得入手千元机中的水桶型选手这是林斌在发布会上对红米Note 5的概括但在笔者体验的一周时间里笔者认为这并不是一个水桶机水桶机在笔者印象中是指一款没有任何亮点的机型但这不该成为红米Note 5的一个概括因为如果要在1099-1699元中寻找一部合适入手的千元机型笔者认为红米Note 5就是一款不可忽视的热门机型虽然红米Note 5身上也有不少不足但其在笔者的一周体验中所带来的优秀游戏性能、待机续航、人脸解锁以及可观的成像可以完全弥补其在用户正常使用时感觉不大的不足喜欢数码科技资讯的你记得订阅[安卓中国]根据机哥第八定律93.94% 爱搞机的人都关注了「好机友」微信公众号【微信号：goodjiyou】看啥看就差你啦~登陆[锋潮科技]官网浏览更多精彩内容（https://www.anzhuo.cn）【原标题：AI双摄加持之后再无短板红米Note 5详细评测】

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