How To Use AI To Learn Your Research Field with Perplexity AI

Science Grad School Coach
29 Jun 202309:46

TLDRThe video tutorial demonstrates the use of Perplexity AI for research purposes, highlighting its ability to provide accurate and sourced answers to specific questions without needing an account. It showcases the tool's capability to pull information from various platforms, including academic sources, and its application in finding recent scholarly articles within a particular field. The video emphasizes the importance of cross-verifying AI-generated information with the provided sources for accuracy.

Takeaways

  • 🌟 The video introduces the use of Perplexity AI for research purposes, emphasizing its ability to provide accurate answers and sources.
  • 🔍 Perplexity AI can be used without an account, offering a question-and-answer interface that pulls information from various sources across the internet.
  • 📚 Users can filter the type of information they receive, such as academic literature, Reddit, YouTube, Wolfram Alpha, and Wikipedia.
  • 🧠 The AI provides a list of citations for the information it presents, allowing users to verify the accuracy and credibility of the sources.
  • 📈 The video demonstrates the AI's capability by asking a specific question related to the presenter's research field, showcasing its ability to retrieve relevant and cited information.
  • 🤖 The AI's response includes a brief explanation of Traveling Wave Ion Mobility Spectrometry (TWIMS) and its applications in a clear and understandable manner.
  • 🔄 The video highlights the importance of cross-verifying AI-generated information with the provided sources for accuracy.
  • 📊 The presenter uses the AI to find recent articles in their field of study, showing how it can be a valuable tool for researchers to stay updated.
  • 📆 The AI successfully identifies a recent review article from 2023, demonstrating its ability to retrieve and present up-to-date academic literature.
  • 🔍 The video encourages users to explore other AI tools for research and provides resources for learning more about these tools.
  • 💡 The presenter offers a free 30-day research jumpstart guide for those looking to improve their research skills and knowledge.

Q & A

  • What is the primary purpose of using Perplexity AI as discussed in the video?

    -The primary purpose of using Perplexity AI, as discussed in the video, is to learn about one's research field and find the most recent articles related to that field. It serves as a tool to gain insights and gather information from various sources, providing accurate and up-to-date data.

  • How does Perplexity AI differ from other AI tools like Chachi BT?

    -Perplexity AI is noted to be more accurate than tools like Chachi BT, especially in the sources it provides. It offers a wider range of information types and allows users to select the type of information they want to pull from, such as academic literature, Reddit, YouTube, Wolfram Alpha, and Wikipedia.

  • What is the significance of selecting 'All' when using Perplexity AI?

    -Selecting 'All' allows Perplexity AI to pull information from across the entire internet, providing a broad range of references and sources. This includes academic literature, social media platforms, video content, and more, ensuring a comprehensive overview of the topic in question.

  • How does Perplexity AI provide citations for its answers?

    -Perplexity AI provides citations by presenting numbers alongside its answers, which act as references to the sources from where the information is derived. Users can click on these numbers to open the citations in a new tab, allowing them to verify the accuracy and credibility of the provided information.

  • What is Traveling Wave Ion Mobility Spectrometry (TWIMS) and how does it work?

    -Traveling Wave Ion Mobility Spectrometry (TWIMS) is a technique used to separate ions based on their mobility in a gas phase. Ions are first ionized and then introduced to a region where a traveling wave is generated by a DC potential to a set of adjacent rings. The traveling wave causes the ions to move through the gas phase, and they are separated based on their mobility, which is a measure of how quickly they move under the influence of an electric field. The separation is then detected by a mass spectrometer.

  • What are the applications of TWIMS mentioned in the video?

    -The video mentions a variety of applications for TWIMS, including the separation and structural characterization of lipid isomers, such as steroid isomers. It is particularly useful in the field of mass spectrometry for its ability to separate ions based on their mobility, leading to more accurate analysis and identification of complex mixtures.

  • How can Perplexity AI assist in finding recent literature within a specific research field?

    -By selecting academic sources and asking specific questions related to the research field, Perplexity AI can provide a list of the most recent articles. This feature is beneficial for researchers looking to stay updated with the latest findings and developments in their area of study.

  • What is the importance of verifying the information provided by AI tools like Perplexity AI?

    -While AI tools like Perplexity AI can generate information quickly, they may not always be completely accurate. It is crucial to verify the information with the actual sources to ensure its credibility and reliability. This practice helps maintain the integrity of the research and prevents the propagation of incorrect data.

  • How does the video demonstrate the effectiveness of Perplexity AI in answering specific questions?

    -The video demonstrates the effectiveness of Perplexity AI by asking a specific question related to the field of ion mobility spectrometry. The AI not only provided an accurate answer but also cited relevant sources, showcasing its ability to offer detailed and well-referenced information.

  • What is the role of mobility in TWIMS and how is it related to the ions' movement?

    -Mobility in TWIMS is a measure of how quickly ions move through the gas under the influence of an electric field. Ions with higher mobility move faster, and thus they can be separated based on this property. The mobility is also related to the size, shape, and charge of the ions, which are crucial factors in the separation process.

  • How can researchers utilize the related questions feature of Perplexity AI?

    -The related questions feature of Perplexity AI can help researchers explore their topic further by suggesting additional queries that might be of interest or relevance. This feature can guide researchers in deepening their understanding of the subject matter and staying informed about various aspects of their research field.

Outlines

00:00

🤖 Introduction to Perplexity AI for Research

This paragraph introduces the use of Perplexity AI, a tool that assists in understanding one's research field and locating recent articles within that domain. It emphasizes the ability to use the AI without an account, and to receive accurate answers with sourced information. The AI can filter information from various platforms such as Reddit, YouTube, and academic literature, with a focus on providing precise and relevant results. The demonstration includes asking a specific question related to the speaker's research field, showcasing the AI's capability to provide detailed and sourced answers, including citations from key works in the field of traveling wave ion mobility spectrometry.

05:00

📚 Finding Relevant Literature with Perplexity AI

The second paragraph discusses the process of finding more relevant literature in one's field using Perplexity AI. The speaker transitions the focus from general information to recent academic articles by narrowing the source selection to academic literature. The AI is then queried about the most recent articles on the separation of steroid isomers using ion mobility spectrometry. The results include a mix of review articles and specific studies, with the speaker validating the AI's output by checking the relevance and recency of the provided articles. The paragraph concludes with the speaker's recommendation of additional resources for learning about AI tools in research and a brief mention of their own research work included in the AI's results.

Mindmap

Keywords

💡Perplexity AI

Perplexity AI is an artificial intelligence tool designed to assist users in learning about their research fields and finding recent articles. It operates by asking questions and providing answers with sources, offering a more accurate alternative to other AI models like Chachi BT. In the video, the user demonstrates how to use Perplexity AI to get information on traveling wave ion mobility spectrometry, showcasing its ability to pull from various sources and provide detailed, relevant information.

💡Traveling Wave Ion Mobility Spectrometry (TWIMS)

Traveling Wave Ion Mobility Spectrometry is a technique used to separate ions based on their mobility in a gas phase. It involves the use of a traveling wave generated by a DC potential across a set of rings, which propels ions through the gas phase, allowing for their separation based on their mobility. This method is particularly useful in the analysis of complex mixtures, such as lipid isomers, and is central to the user's research field as demonstrated in the video.

💡Ion Mobility

Ion mobility refers to the measure of how quickly ions move through a gas under the influence of an electric field. It is a critical parameter in ion mobility spectrometry and related techniques, such as TWIMS, where ions are separated based on their mobility values. The concept of ion mobility is fundamental to understanding the separation mechanisms in these analytical techniques and is directly related to the user's research on traveling wave ion mobility.

💡Academic Sources

Academic sources are scholarly materials such as journal articles, books, and conference papers that are used as references in research. These sources are typically peer-reviewed and considered reliable and authoritative in their respective fields. In the context of the video, the user selects academic sources to find recent articles on ion mobility spectrometry, demonstrating the importance of academic literature in staying current with research developments.

💡Citations

Citations are references to the works of others that are used to support arguments, provide context, or acknowledge the sources of information in academic writing. They are an essential part of the research process, allowing for the verification of information and the avoidance of plagiarism. In the video, the AI tool provides citations for its answers, which the user can click on to open and verify the accuracy of the information.

💡DC Waves

DC waves, or direct current waves, are types of electrical signals characterized by a constant, steady flow of electric charge. In the context of ion mobility spectrometry, DC waves are used to generate a traveling wave that propels ions through a gas medium. The application of DC waves is crucial for the operation of TWIMS and related analytical techniques.

💡Separation of Isomers

The separation of isomers refers to the process of distinguishing and isolating molecules with the same molecular formula but different structural arrangements. This is a significant challenge in chemistry and is particularly relevant to the user's research on steroid isomers and ion mobility spectrometry. The ability to separate isomers is crucial for accurate analysis and identification of compounds in various scientific studies.

💡Mass Spectrometer

A mass spectrometer is an analytical instrument that measures the mass-to-charge ratio of ions to identify chemical substances. It is widely used in various scientific fields for the analysis of samples and plays a critical role in ion mobility spectrometry by detecting the separated ions. The mass spectrometer provides the means to confirm the identity and quantity of the separated ions, making it an essential component in the user's research on traveling wave ion mobility.

💡Research Field

A research field refers to a specific area of study or expertise within a broader scientific discipline. It encompasses the collective knowledge, methods, and practices associated with that area. In the video, the user is focused on the research field of ion mobility spectrometry, using Perplexity AI to explore both foundational concepts and recent advancements.

💡Research Jumpstart Guide

The Research Jumpstart Guide is a resource mentioned in the video that aims to assist users in quickly learning about a research field and identifying relevant literature. It is a tool designed to help users become familiar with a new area of study or to refresh their knowledge in their existing field of expertise. The guide is offered as a free PDF, suggesting it is a valuable and accessible tool for researchers.

Highlights

The video provides a tutorial on using Perplexity AI for research purposes.

Perplexity AI can be used without an account to answer questions and provide sources.

The AI tool is more accurate than some other tools like Chachi BT, especially in academic sources.

Users can select the type of information source, such as academic, Reddit, YouTube, Wolfram Alpha, and Wikipedia.

The AI demonstrated the ability to answer a specific question about traveling wave ion mobility.

The AI provided citations, including a fundamental text in the field and a Wikipedia article.

The explanation of traveling wave ion mobility spectrometry was mostly accurate but had minor inaccuracies.

The AI discussed the technique's ability to separate ions based on their mobility in a gas phase.

The AI provided related questions to further explore the topic, such as advantages and potential wave generation.

The AI demonstrated how to find recent articles in a specific research field by narrowing down to academic sources.

The AI provided recent articles on the separation of steroid isomers using ion mobility spectrometry.

The AI's response included a review article from 2023, which is relevant to the user's research field.

The AI's response also included the user's own research papers from 2019.

The AI's information on the mobility being proportional to the square root of the charge ratio was slightly inaccurate.

The AI's response about the separation detected by a mass spectrometer was accurate.

The AI provided a broad overview of the topic, but some details may require verification with the sources.

The video ends with a recommendation for a 30-day research jumpstart guide for further learning.