Networking and Chemistry

1. Networking and Chemistry 2014 Spring Term ZhengxinBuilding Room 201 Professor Douglas Loy My lecture notes will be available in “Harbin Network chemistry” under “courses” at loyresearchgroup.com Email: daloy@mse.arizona.edu

2. Curriculum Vitae: Professor Douglas A. Loy • BS Chemistry, University of Arizona, 1983 • MS Chemistry, Northern Arizona University, 1986 • Ph.D. Chemistry, University of California, Irvine, 1991 • Distinguished Member of Technical Staff, Sandia National Labs • Team Leader, NanoSynthesis, Los Alamos National Lab • Professor of Materials Science & Engineering and Chemistry and Biochemistry, University of Arizona • 11 patents, over 150 papers and proceedings Email: daloy@mse.arizona.edu

3. Part 1: About the course (syllabus) Purpose: study and master the knowledge of networking and skill to search chemical information in the Internet. • Since the most advanced information in the Internet is written in English, the course is scheduled to be taught in English Email: daloy@mse.arizona.edu

4. Internet is powerful tool for chemists • Hardware and software architecture of the internet. • Finding scientific information • Faster communication than letter writing • Writing papers for publication • Professional networking • Professional society information • Conferences and presentations

5. About the class: (I) First, my lectures: 1) Introduction to course & notes on good presentations, plus background on internet, 1st hour today 2) Searching chemical information on web 2nd hour today 3) Attending International conferences and preparing scientific papers for publication (using web) Friday’s lectures 4) Summation of course, June 11th. (II) The remainder of the lectures will be student symposia (presentations). Student presentations start on Wednesday, May 21st. Email: daloy@mse.arizona.edu

6. Course Schedule Lecture 1: About the course May 14 Lecture 2: Giving good presentations and introduction to the internet & Chemistry May 14 Lecture 3: Searching the internet, scientific literature May 16 Lecture 4:Scientific Literature, Paper, patents, Professional Meetings & Societies & getting a job. May 16 Quiz 1 May 16 Lecture 5:Student presentations & discussion May 21 Lecture 6: Student presentations & discussion May 21 Lecture 7:Student presentations & discussion May 23 Lecture 8: Student presentations & discussion May 23 Lecture 9: Student presentations & discussionMay 28 Lecture 10: Student presentations & discussion May 28 Quiz 2 May 28 Lecture 11: Student presentations & discussion May 30 Lecture 12: Student presentations & discussion May 30 Lecture 13: Student presentations & discussion June 4 Lecture 14: Student presentations & discussion June 4 Lecture 15: Student presentations & discussion June 6 Lecture 16: Student presentations & discussion June 6 Quiz 3 June 6 Lecture 16 : Make-up presentations, last lecture June 11 Lecture 17: End of class ceremony June 11 Email: daloy@mse.arizona.edu

7. Course grading: 10% Attendance 20%Presentations 10% Participation (discussion questions) 15% Three quizzes (5% each) 20% Computer Lab 25% Final exam Email: daloy@mse.arizona.edu

8. Signing papers & quizzes: Please sign your class number (1,2,3…32) & student identification number (e.g1110700101) on quizes or any written assignments I cannot read Chinese written language, so please sign your class number and student identification number Email: daloy@mse.arizona.edu

9. Quiz 1 May 23, 2014 Student class # 1 Student identification #: 1110700101 Example Example Example Email: daloy@mse.arizona.edu

10. Attendance • Student leader takes each day • 10% of grade!!! • You must notify me by email (include student #) if you cannot make it to class or if you missed because of illness or other excusable reason. Email: daloy@mse.arizona.edu

11. Presentation requirements (20%) • Presentations start on Wednesday May 21st. • We will provide titles for presentations. • Presentation in Powerpoint (In English) • 10 minutes long, 2 minutes for questions • Must tell a logical story Email: daloy@mse.arizona.edu

12. Grading presentations • Quality of slides: titles, conclusion at base of each, bullets no sentences • Quality of graphics (not pixelated) • Talk structure: introduction, • Subject matter • Presentation skill (voice, English, not reading notes) Email: daloy@mse.arizona.edu

13. Audience (team) participation (10%) • After two or three talks (1 lecture), you will work in teams on discussion questions (provided by me). • Five teams (6 or 7 students in each) • Write down discussion question • You will write down your teams’ conclusions • All students must sign their’s teams paper • This will count for your participation Email: daloy@mse.arizona.edu

14. Audience (team) participation (Examples) • How would you use the internet to find out if a chemical is commercially available? • How would you discover all of the scientific papers of Professor ZhipingZheng(from the University of Arizona) using the internet? Your team would discuss and write an short answer to questions, sign the paper and turn in. Email: daloy@mse.arizona.edu

15. Quizzes (15% of grade) • Three quizzes • You will have 30 minutes to take. • I will provide a Study quide for you to prepare with. • NOT a team effort. Work by yourselves. No copying of your neighbor’s quiz answers. • Quizes will be during 1) 4thperiod on Friday, May 16th, 2) 4th period on Monday, May 28th and 4th period on June 6th. Email: daloy@mse.arizona.edu

16. Example Quiz 1 What is the internet? What is a router and what does it do? 3) What is an http and what is it used for? 4) What is an ISP and what does it do? 5) What is the WWW and what is it for? 6) Name a chemistry search engine. 7) Name three different places can you find chemical keywords? 8) What kind of chemical search is the best at finding all of the citations? Email: daloy@mse.arizona.edu

17. Example Quiz 1 1) What is the internet? A global network of computer networks 2) What is a router and what does it do? An electronic gateway device that connects networks together and helps direct data traffic. 3) What is an http and what is it used for? Hypertext Transfer Protocol is an application protocol for distributed, collaborative, hypermedia information systems. 4) What is an ISP and what does it do? Internet service provider (ISP) is an organization that provides access to the Internet. 5) What is the WWW and what is it for? World wide web- a collection of data servers around the world. 6) Name a chemistry search engine. Scifinder, reaxys, web of science 7) Name three different places can you find chemical keywords? Encyclopedias, search engines, textbooks, papers, patents 8) What kind of chemical search is the best at finding all of the citations? Structure search Email: daloy@mse.arizona.edu

18. First week Presentation Topics: May 21 & 23rd • Explain how the internet works. • Presentation of history of internet. • How search engines work • Describe search engines available to you here in China. • Describe how a VPN works • Explain how to build a complete list of publications for a scientist.. • Discovering where a scientist has worked (company or government lab or University). • Conducting author searches (how do you know you have the right Professor Zhe Li??). • Chemical searching: How do you use the internet to tell you if a chemical compound is new and has not been reported before? • Research topic searching. • Finding a chemical reactions or formulation using chemical search engines

19. Part 2. Giving effective presentations Douglas Loy Networking and Chemistry Email: daloy@mse.arizona.edu

20. Story telling tools • Visual-graphics • Strong load voice & eye contact • Slide title is a thesis for slide • Reinforced with bullets of information • Finish each slide with conclusion or transition Together these grab your audience’s attention and deliver your message more effectively Email: daloy@mse.arizona.edu

21. 9-11 Slides should do it. Title: Giving presentations is easy Introduction/background: Organize your information Logical sequence of information Presenting is easy because, It is just telling a story. Don’t put everything you know On your slides. Leave some things for the audience to ask about. Conclusion: repeat thesis from first slide. Acknowledgments Email: daloy@mse.arizona.edu

22. The title slide • Introduce yourself • Paraphrase title of talk if possible • Introduce thesis during title slide. • Presenter must explain why this talk is important or interesting to audience. Email: daloy@mse.arizona.edu

23. The proper use of the title is to inform the reader of the talk’s thesis Douglas Loy HIT, Harbin, Heilongjong, PRC Email: daloy@mse.arizona.edu

24. Presentations tell a story Beginning of talk: tell audience what they should learn (thesis) Middle of talk: explain & defend thesis and reinforce End of talk: repeat thesis clearly People like to hear a logical story with a satisfying conclusion Email: daloy@mse.arizona.edu

25. Applying the KISS (Keep It Simple Silly) Principle • One concept or theme per slide • Try to keep it to 4 or 5 bullets max per slide • Simple, easy to understand graphics • Font greater than 18. Simple, easy to understand slides that focus will leave your audience with your message more effectively This is an awful graphic!!!!! Email: daloy@mse.arizona.edu

26. No outlines in short talks • Absolutely useless for short talks (& most long ones) • Waste of time at best, Insulting at worst • If you must, make it a map for complicated presentations Boring!!! Talks can be “outlined” on the first slide But don’t waste your time or the audience with a special outline slide Email: daloy@mse.arizona.edu

27. For historical background, use a time line graphic Bridged polysilsesquioxane sol-gel Solid state NMR 1860 1990 2010 1900 1930 1950 1970 2000 1880 1920 1940 1960 1980 Surfactant templated F. S. Kipping Eugene Rochow (GE) Email: daloy@mse.arizona.edu

28. Don’t go overboard with details • Leave fine details for audience questions • Do not set yourself up for questions you can’t answer • Keep presentation at higher level (not the dreaded “graduate student seminar”) The corollary is that you should be identifying potential questions and organizing your answers before you present Email: daloy@mse.arizona.edu

29. Keep your talk length under control • Start with one slide per minute • Practice and determine how many you will actually will need If you have too many slides your audience will not remember your message, only your lack of preparation Email: daloy@mse.arizona.edu

30. Conclusion slide is where you revisit key points from presentation • Do not save important points until conclusion • Paraphrase those points after introducing them earlier. • Can be the conclusion bullets from slides You can often end your summarizing the talks take home points by speculating about the future. Email: daloy@mse.arizona.edu

31. Responsibilities of Audience during presentation • NO talking, eating, cell phones ringing, texting, writing on computers unless its about the presentation • Listen, because test material will be included in presentations. • Clap when speaker is finished. • Raise hand to ask question. Stand and introduce yourself then ask question. Email: daloy@mse.arizona.edu

32. Speaker answering questions • Design slides to direct audience to questions you want asked. • Don’t put everything you know on your slides, leave off things so you can answer questions. • Repeat question back to audience: • “The question is….” • If you don’t know, ask the speaker to rephrase question or tell them you do not understand the question. Email: daloy@mse.arizona.edu

33. Part 3: The Internet Email: daloy@mse.arizona.edu

34. What you need to know about the internet: • Definition of internet • Computer architecture of internet • What are protocols; what do they do? • What POP, ISP and IP are; what do they do? • What are routers; what do they do? • What is a LAN ; what does it do? • What is an http ; what does it do? • How a browser and search engine are similar and different • What is a url ; what is it for? • What is the backbone of the internet ; what does it do? • What is the world wide web? • What is a firewall ; what does it do? • What is a VPN; what does it do? Email: daloy@mse.arizona.edu

35. The internet: global computer network • Network of computer systems spanning the globe. • Network of networks • Share a common protocol suite (TCP/IP) • > 2 billion users • Internet Engineering Task Force • Internet Corporation for Assigned Names and Numbers • Access to data (WWW) and communication (email) • No central administration Email: daloy@mse.arizona.edu

36. History of Internet • Packet research in 1960’s • ARPANET (DARPA-US), NPL (UK), CYCLADES (FR), Telenet (US), Tymnet (US) in early 1970’s • Computer Science Network (NSF, US,1982) • 1980’s TCP/IP standardization • NSFNET 1986 (10-50 kb/s) • ARPANET & NSFNET replaced by commercial internet corp.’s 1990’s • since 1990’s Email, video calls, blogs social networking, WWW, etc. (> 10 Gib/s). Email: daloy@mse.arizona.edu

37. One more how the internet works slide Packets are the data fragment your request or answer is broken into for transit through the internet nodes interconnection points Servers store information routers are the brains of the internet:joins networks. insures info only goes where it is needed and that it does get there. Client is your phone, ipad, computer Email: daloy@mse.arizona.edu

38. Email: daloy@mse.arizona.edu

39. Search engines • Software designed to find (search) information on world wide web • Use webcrawler and indexing algorithms to keep up to data directory of data • Many commercial search engines (Google (89%),Yahoo, Baidu (62% in China)) • Scientific search engines: Web of Science, SciFinder, Google Scholar Some are free others cost to buy license. Email: daloy@mse.arizona.edu

40. Part 4. Searching for chemical information on the internet Email: daloy@mse.arizona.edu

41. What you need to know about searching for chemical information on the internet You need to know 1) what search engines are available (Scifinder, web of science, reaxys, Google scholar). 2) how to find Chemical Abstracts System numbers- they are assigned to each and every chemical. 3) how to search by author names and find all of their publications 4) how to find out where people worked by finding their resume or curriculum vita online. 5) how to search with keywords 6) that structure searching can be the best way to find a CAS number or all of the references there are for that compound. 7) How to find CAS #, alternative names, and citations for polymers. 8) How to search for reactions 9) How to search for patents 10) How to sort or down select citation lists by where, when, and for whom it was done 11) How to export citation lists to bibliographic software 12) How to find companies selling chemicals and their prices 13) How to find the first time something was done. 14) Sort by document type. Email: daloy@mse.arizona.edu

42. Internet is powerful tool for chemists • Hardware and software architecture of the internet. • Finding scientific information • Faster communication than letter writing • Writing papers for publication • Professional networking • Professional society information • Conferences and presentations

43. Scientific information: Search Engines • Chemspider1,2 • Web of science2 • Scifinder2 (Chinese Academic Library and Information System: CALIS Universities) • reaxys • Trademark and Patent office of PRC patent search engine1,2 • US Patent office search engine1,2 1) Free resources 2) Resources available in China

44. Scientific information: Chemicals Chemical Abstract Number and Structure searching • Chemical information from chemical catalogs • Chem Frog free database with millions of chemicals. • emolecules-structure search • web of science structure search • Scifinder structure searching • Search Google or Baidu with CAS number Continued on Friday