【正文】 ection of amino acids is critical for cell survival. They not only serve as the building blocks for proteins but also as starting points for the synthesis of many important cellular molecules including vitamins and nucleotides. Synthesis of Amino Acids Synthesis and/or collection of Synthesis and/or collection of amino acids is critical for cell survival. They not only serve as the building blocks for proteins but also as starting points for the synthesis of many important cellular molecules including vitamins and nucleotides. Synthesis of Amino Acids Synthesis and/or collection of Synthesis and/or collection of amino acids is critical for cell survival. They not only serve as the building blocks for proteins but also as starting points for the synthesis of many important cellular molecules including vitamins and nucleotides. Synthesis of Amino Acids Synthesis and/or collection of Synthesis and/or collection of amino acids is critical for cell survival. They not only serve as the building blocks for proteins but also as starting points for the synthesis of many important cellular molecules including vitamins and nucleotides. Synthesis of Amino Acids Synthesis and/or collection of Synthesis and/or collection of amino acids is critical for cell survival. They not only serve as the building blocks for proteins but also as starting points for the synthesis of many important cellular molecules including vitamins and nucleotides. Synthesis of Amino Acids Synthesis and/or collection of Synthesis and/or collection of amino acids is critical for cell survival. They not only serve as the building blocks for proteins but also as starting points for the synthesis of many important cellular molecules including vitamins and nucleotides. Synthesis of Amino Acids Synthesis and/or collection of Synthesis and/or collection of amino acids is critical for cell survival. They not only serve as the building blocks for proteins but also as starting points for the synthesis of many important cellular molecules including vitamins and nucleotides. 論文甲 論文乙 A B C D E F 21 22 一篇論文的全記錄頁面 —— 施引文獻 23 一篇論文的全記錄頁面 —— 參考文獻 24 一篇論文的全記錄頁面 —— 相關(guān)記錄 25 一篇論文的全記錄頁面 —— 引證關(guān)系圖 Unique Data 獨特 的數(shù)據(jù) Quality 質(zhì)量 選刊標準 基本的期刊出版標準，內(nèi)容，國際性與區(qū)域代表性，引文分析 相對性的全 – 地域、類型、學科；科學、社會科學、藝術(shù)與人文領(lǐng)域 深度 – 提供最深的引文回溯數(shù)據(jù)， 100年來的學術(shù)引文 數(shù)據(jù)的獨特性保證了知識的發(fā)現(xiàn) Diversity 廣度 Depth 深度 Web of Science—— 高質(zhì)量的數(shù)據(jù)來源 提綱 ? 認識 Web of Knowledge平臺及 Web of Science ? SCI、 SSCI數(shù)據(jù)庫在科研中的價值與應(yīng)用 ? 以具體案例來演示如何解決科研工作流中的各種問題 ? 如何利用 SCI\SSCI 開題并選擇研究方向 ？ ? 如何利用 SCI\SSCI查找跟自己從事的研究最相關(guān)科研資料，獲取研究思路 ？ ? 如何利用 SCI\SSCI跟蹤領(lǐng)域內(nèi)最新的研究成果 ？ ? 如何利用 SCI\SSCI了解學科領(lǐng)域期刊并判斷期刊錄用傾向 ？ ? 如何高效地編輯論文參考文獻、提高論文寫作投稿效率，加速科研成果發(fā)表 ？ ? 將您的學術(shù)成果展示到國際學術(shù)平臺中 ? 問題與解答 27 ?22,000種學術(shù)期刊 ?100年科技文獻與引文 ?3,100萬發(fā)明專利 ?6萬個學術(shù)會議 ?機構(gòu)知識庫 ?分析研究趨勢 ?發(fā)現(xiàn)技術(shù)熱點 ?揭示論文間的潛在聯(lián)系 ?提供引文報告 ?在 Microsoft Word中邊寫作邊引用 ?自動生