Inbox Narrator 对比 Typeset
在 Inbox Narrator 和 Typeset 的对决中,哪个 AI Summarizer 工具脱颖而出?我们评估评论、定价、替代品、功能、赞成票等等。
当我们把 Inbox Narrator 和 Typeset 放在一起时,哪一个会成为胜利者?
让我们仔细看看Inbox Narrator和Typeset,两者都是AI驱动的summarizer工具,看看它们有什么不同。 社区已经发表了意见,Typeset以更多的赞成票领先。 Typeset的赞成票数为 25,而 Inbox Narrator 的赞成票数为 6。
认为我们错了?投票并向我们展示谁才是老大!
Inbox Narrator
什么是 Inbox Narrator?
收件箱叙述者使用Chatgpt总结了您的Gmail电子邮件,并每天早上通过Siri或Google Assistant以令人印象深刻的人类声音传递它们。在您准备一天的时候,将收件箱变成一个短暂的早晨播客。
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。
Inbox Narrator 赞同数
6
Typeset 赞同数
25🏆
Inbox Narrator 类别
- Summarizer
Typeset 类别
- Summarizer
Inbox Narrator 定价类型
- Paid
Typeset 定价类型
- Free
Inbox Narrator 使用的技术
AOS
Elixir
Typeset 使用的技术
Amazon Web Services
jQuery
Bootstrap
Inbox Narrator 标签
Inbox Narrator
Gmail
ChatGPT
human-like voice
Siri
Google Assistant
morning podcast.
Typeset 标签
Content Summary
AI Whitepapers
AI Emails
Inbox Narrator 平均评分
无可用评分Typeset 平均评分
4.00
Inbox Narrator 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