https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/Recent content in Chemistry on ∇Alex的实验室Hugozh-CNMon, 02 Mar 2026 21:16:27 +0800https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/2024-beijing-organic/Mon, 02 Mar 2026 21:16:27 +0800https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/2024-beijing-organic/<p><figure class="img-wrapper"> <a href="https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/2024-beijing-organic/AgACAgEAAyEGAATlvtEQAAMSaaWOJqSE_ymf7O1RkLT7ePcZETYAAqELaxvUfzBFNi6OruCJ0dgBAAMCAAN5AAM6BA.png" target="_blank" rel="noopener"> <div class="loading-spinner"></div> <img alt="图片" loading="lazy" src="https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/2024-beijing-organic/AgACAgEAAyEGAATlvtEQAAMSaaWOJqSE_ymf7O1RkLT7ePcZETYAAqELaxvUfzBFNi6OruCJ0dgBAAMCAAN5AAM6BA.png"style="opacity: 0; transition: opacity 0.4s ease;" onload="this.style.opacity='1'; if (this.previousElementSibling &amp;&amp; this.previousElementSibling.classList.contains('loading-spinner')) { this.previousElementSibling.style.display='none'; }"> </a></figure> </p> <p><figure class="img-wrapper"> <a href="https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/2024-beijing-organic/AgACAgEAAyEGAATlvtEQAAMTaaWQmIoPK1nDqqTsvg-AHEq_tcMAAqILaxvUfzBFyx00Zc_T2lkBAAMCAAN4AAM6BA.png" target="_blank" rel="noopener"> <div class="loading-spinner"></div> <img alt="图片" loading="lazy" src="https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/2024-beijing-organic/AgACAgEAAyEGAATlvtEQAAMTaaWQmIoPK1nDqqTsvg-AHEq_tcMAAqILaxvUfzBFyx00Zc_T2lkBAAMCAAN4AAM6BA.png"style="opacity: 0; transition: opacity 0.4s ease;" onload="this.style.opacity='1'; if (this.previousElementSibling &amp;&amp; this.previousElementSibling.classList.contains('loading-spinner')) { this.previousElementSibling.style.display='none'; }"> </a></figure> </p> <p>J-&gt;K发生了<strong>克莱森酯缩合反应</strong>(Claisen Condensation) <figure class="img-wrapper"> <a href="https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/2024-beijing-organic/AgACAgEAAyEGAATlvtEQAAMUaaWRLPix02zA-JfS9Z7zA5_1Pw0AAqMLaxvUfzBFvGlqq8yi1H4BAAMCAAN3AAM6BA.png" target="_blank" rel="noopener"> <div class="loading-spinner"></div> <img alt="图片" loading="lazy" src="https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/2024-beijing-organic/AgACAgEAAyEGAATlvtEQAAMUaaWRLPix02zA-JfS9Z7zA5_1Pw0AAqMLaxvUfzBFvGlqq8yi1H4BAAMCAAN3AAM6BA.png"style="opacity: 0; transition: opacity 0.4s ease;" onload="this.style.opacity='1'; if (this.previousElementSibling &amp;&amp; this.previousElementSibling.classList.contains('loading-spinner')) { this.previousElementSibling.style.display='none'; }"> </a></figure> 这里的一定条件就是<strong>醇钠</strong>(最后一步形成烯醇盐的质子转移是不可逆的) <figure class="img-wrapper"> <a href="https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/2024-beijing-organic/AgACAgEAAyEGAATlvtEQAAMVaaWR4-EBY9MWZu4V2DwMvZG96fEAAqQLaxvUfzBFJnjPFf2JDP4BAAMCAAN5AAM6BA.png" target="_blank" rel="noopener"> <div class="loading-spinner"></div> <img alt="图片" loading="lazy" src="https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/2024-beijing-organic/AgACAgEAAyEGAATlvtEQAAMVaaWR4-EBY9MWZu4V2DwMvZG96fEAAqQLaxvUfzBFJnjPFf2JDP4BAAMCAAN5AAM6BA.png"style="opacity: 0; transition: opacity 0.4s ease;" onload="this.style.opacity='1'; if (this.previousElementSibling &amp;&amp; this.previousElementSibling.classList.contains('loading-spinner')) { this.previousElementSibling.style.display='none'; }"> </a></figure> <figure class="img-wrapper"> <a href="https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/2024-beijing-organic/AgACAgEAAyEGAATlvtEQAAMWaaWSEpQjKwRsQPAdtFy34sYEq74AAqULaxvUfzBFzk-jThOqK_MBAAMCAAN5AAM6BA.png" target="_blank" rel="noopener"> <div class="loading-spinner"></div> <img alt="图片" loading="lazy" src="https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/2024-beijing-organic/AgACAgEAAyEGAATlvtEQAAMWaaWSEpQjKwRsQPAdtFy34sYEq74AAqULaxvUfzBFzk-jThOqK_MBAAMCAAN5AAM6BA.png"style="opacity: 0; transition: opacity 0.4s ease;" onload="this.style.opacity='1'; if (this.previousElementSibling &amp;&amp; this.previousElementSibling.classList.contains('loading-spinner')) { this.previousElementSibling.style.display='none'; }"> </a></figure> 为什么信息反应没有副产物?因为三氟乙酸乙酯<strong>没有α-H</strong>,无法形成碳负离子</p>https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/organic-chemistry-001-diels-alder/Fri, 27 Feb 2026 17:08:31 +0800https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/organic-chemistry-001-diels-alder/狄尔斯–阿尔德反应，又叫双烯加成反应，是一种有机反应，共轭双烯与取代烯烃反应生成取代环己烯。https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/meiri-yiti-day004/Tue, 17 Feb 2026 15:00:28 +0000https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/meiri-yiti-day004/<h1 id="下列对客观事实的解释错误的是">下列对客观事实的解释错误的是（）</h1> <table> <thead> <tr> <th style="text-align: left">选项</th> <th style="text-align: left">客观事实</th> <th style="text-align: left">解释</th> </tr> </thead> <tbody> <tr> <td style="text-align: left">A</td> <td style="text-align: left">热稳定性：<span class="math math-inline"> $ NH_4Cl > NH_4F $ </span></td> <td style="text-align: left"><span class="math math-inline"> $ F $ </span>的电负性强于 <span class="math math-inline"> $ Cl $ </span>，<span class="math math-inline"> $ HF $ </span>的稳定性强于 <span class="math math-inline"> $ HCl $ </span>，<span class="math math-inline"> $ F^- $ </span>更易夺取 <span class="math math-inline"> $ NH_4^+ $ </span>中的 <span class="math math-inline"> $ H^+ $ </span>生成 <span class="math math-inline"> $ HF $ </span>，故 <span class="math math-inline"> $ NH_4F $ </span>的热稳定性比 <span class="math math-inline"> $ NH_4Cl $ </span>差。</td> </tr> <tr> <td style="text-align: left">B</td> <td style="text-align: left">还原性：<span class="math math-inline"> $ KH > NaH $ </span></td> <td style="text-align: left"><span class="math math-inline"> $ K^+ $ </span>的半径大于 <span class="math math-inline"> $ Na^+ $ </span>，<span class="math math-inline"> $ KH $ </span>中的离子键较弱，发生化学反应时，<span class="math math-inline"> $ KH $ </span>中的离子键更易断裂生成 <span class="math math-inline"> $ H^+ $ </span>，故 <span class="math math-inline"> $ KH $ </span>的还原性强于 <span class="math math-inline"> $ NaH $ </span>。</td> </tr> <tr> <td style="text-align: left">C</td> <td style="text-align: left">熔点：<span class="math math-inline"> $ AlCl_3 > AlBr_3 $ </span></td> <td style="text-align: left"><span class="math math-inline"> $ AlCl_3 $ </span>是<del>离子晶体</del>，<span class="math math-inline"> $ AlBr_3 $ </span>是分子晶体，离子键比分子间作用力强，破坏离子键吸收的能量多，故 <span class="math math-inline"> $ AlCl_3 $ </span>的熔点高于 <span class="math math-inline"> $ AlBr_3 $ </span>。</td> </tr> <tr> <td style="text-align: left">D</td> <td style="text-align: left">苯和乙酸（l）混合后体积增大</td> <td style="text-align: left">混合后苯和乙酸分子间平均作用力小于混合前分子间平均作用力，苯和乙酸分子间平均距离比混合前大，故混合后体积增大。</td> </tr> </tbody> </table> <p>A. A<br> B. B<br> <strong>C. C</strong><br> D. D</p>https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/meiri-yiti-day003/Fri, 13 Feb 2026 17:11:34 +0800https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/meiri-yiti-day003/<h1 id="一些零碎的化学知识点">一些零碎的化学知识点</h1> <p>1.还原性:<span class="math math-inline"> $Fe^{2+}$ </span>&lt;<span class="math math-inline"> $I^{-}$ </span></p> <p>2.无机酸酯(硼酸酯,硫酸酯,磷酸酯,硝酸酯)可以类比有机酸酯(碱性条件水解)</p> <p>3.反应活性:酰卤 &gt; 酸酐 &gt; 酯 ≈ 羧酸 &gt; 酰胺</p> <p>以下图片摘自<a href="http://clayden.lawaxi.net/">Clayden有机化学</a>第十章: <a href="https://free.picui.cn/free/2026/02/14/6990400828d96.png"><figure class="img-wrapper"> <a href="https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/meiri-yiti-day003/6990400828d96.png" target="_blank" rel="noopener"> <div class="loading-spinner"></div> <img alt="20260214-Clayden-pKa与离去能力.png" loading="lazy" src="https://cn-sunisalex-pages.zh-cn.edgeone.cool/posts/chemistry/meiri-yiti-day003/6990400828d96.png"style="opacity: 0; transition: opacity 0.4s ease;" onload="this.style.opacity='1'; if (this.previousElementSibling &amp;&amp; this.previousElementSibling.classList.contains('loading-spinner')) { this.previousElementSibling.style.display='none'; }"> </a></figure> </a></p>