News Minimalist 对比 Typeset
在比较 News Minimalist 和 Typeset 时,哪个 AI Summarizer 工具更出色?我们看看定价、替代品、赞成票、功能、评论等等。
在 News Minimalist 和 Typeset 的比较中,哪一个脱颖而出?
当我们将News Minimalist和Typeset并排放置时,这两个都是AI驱动的summarizer工具, 赞成票数有利于Typeset,使其成为明显的赢家。 Typeset有 25 个赞成票,而 News Minimalist 有 6 个赞成票。
不是你的菜?投票支持您喜欢的工具,搅动事情!
News Minimalist
什么是 News Minimalist?
使用新闻极简主义进入简洁信息的领域,您每天的重要故事是由Chatgpt的智能精心策划的。我们的AI驱动平台是您将新闻海洋提炼成易于消化,有影响力的宝石的首选来源,以确保您在没有噪音的情况下了解了必需品。
每天,Chatgpt都会使用严格的意义评分系统来筛选一千多个新闻报道,以引起值得您注意的顶级头条新闻。我们的每日新闻通讯是一个清晰的强国,仅介绍了在6.5以上的故事,这使您可以通过不断的信息流进行涉水的麻烦。
_除了标准新闻体验之外,还为您的偏好量身定制了您的情报源。
Typeset
什么是 Typeset?
您的平台探索和解释论文。搜索270m+的论文,以简单的语言了解它们,然后查找连接的论文,作者,主题。
News Minimalist 赞同数
6
Typeset 赞同数
25🏆
News Minimalist 顶级功能
人工智能驱动的策展: 利用 ChatGPT 的先进算法根据重要性选择热门新闻报道。
每日新闻文摘: 简明的时事通讯,其中包含重要性得分超过 6.5 的故事。
反点击诱饵: 专注于值得阅读的内容,同时消除广告和点击诱饵。
个性化: 提供个性化提要和 RSS 选项,打造量身定制的新闻体验。
**覆盖面广:**涵盖世界新闻、商业、健康、科技、娱乐和体育等多种类别。
Typeset 顶级功能
未列出顶级功能News Minimalist 类别
- Summarizer
Typeset 类别
- Summarizer
News Minimalist 定价类型
- Freemium
Typeset 定价类型
- Free
News Minimalist 标签
AI Curated News
Daily Digest
Significance Scoring
Anti-Clickbait
Personalized Feed
Typeset 标签
Content Summary
AI Whitepapers
AI Emails
News Minimalist 平均评分
无可用评分Typeset 平均评分
4.00
News Minimalist 评论
无可用评论Typeset 评论
Sara Sara
The simulation model validated experimental J-V and external quantum efficiency (EQE) to demonstrate an improvement in perovskite (PSK) solar cell (PSC) efficiency. The effect of interface properties at the electron transport layer (ETL)/PSK and PSK/hole transport layer (HTL) was investigated using the Solar Cell Capacitance Simulator (SCAPS). The interfaces between ETL, PSK, and HTL were identified as critical factors in determining high open-circuit voltage (Voc) and FF. In this study, the impact of two types of interfaces, ETL/PSK and PSK/HTL, were investigated. Lowering the defect density at both interfaces to 102 cm−2 reduced interface recombination and increased Voc and FF.The absorber layer defect density and n/i interface of perovskite solar cells were investigated using the Solar Cell Capacitance Simulator-1D (SCAPS-1D) at various cell thicknesses. The planar p-i-n structure was defined as PEDOT:PSS/Perovskite/CdS, and its performance was calculated. With a defect density of <1014 cm−3 and an absorber layer thickness of >400 nm, power conversion efficiency can exceed 25%. The study assumed a 0.6 eV Gaussian defect energy level beneath the perovskite's conduction band, which has a characteristic energy of 0.1 eV. These conditions produced the same result on the n/i interface. These findings place constraints on numerical simulations of the correlation between defect mechanism and performance