[{"data":1,"prerenderedAt":427},["ShallowReactive",2],{"navigation_docs_chemistry_zh":3,"-docs-chemistry-zh-organic-chemistry-chemical-safety":305,"-docs-chemistry-zh-organic-chemistry-chemical-safety-surround":422},[4,39,73,95,145,183,229,255,269,287],{"title":5,"icon":6,"path":7,"stem":8,"children":9,"page":38},"原子结构与元素性质","i-lucide-atom","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fatomic-structure","docs\u002Fchemistry\u002Fzh\u002F01.atomic-structure",[10,14,18,22,26,30,34],{"title":11,"path":12,"stem":13},"核外电子排布方式","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fatomic-structure\u002Felectron-configuration","docs\u002Fchemistry\u002Fzh\u002F01.atomic-structure\u002F1.electron-configuration",{"title":15,"path":16,"stem":17},"构造原理、泡利原理、洪特规则","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fatomic-structure\u002Faufbau-principle","docs\u002Fchemistry\u002Fzh\u002F01.atomic-structure\u002F2.aufbau-principle",{"title":19,"path":20,"stem":21},"电子排布式与轨道表示式","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fatomic-structure\u002Felectron-notation","docs\u002Fchemistry\u002Fzh\u002F01.atomic-structure\u002F3.electron-notation",{"title":23,"path":24,"stem":25},"原子结构 元素周期表","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fatomic-structure\u002Fperiodic-table","docs\u002Fchemistry\u002Fzh\u002F01.atomic-structure\u002F4.periodic-table",{"title":27,"path":28,"stem":29},"电离能 电负性 元素周期律","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fatomic-structure\u002Fionization-electronegativity","docs\u002Fchemistry\u002Fzh\u002F01.atomic-structure\u002F5.ionization-electronegativity",{"title":31,"path":32,"stem":33},"考点 · 元素周期律与元素推断","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fatomic-structure\u002Fperiodic-law-inference","docs\u002Fchemistry\u002Fzh\u002F01.atomic-structure\u002F6.periodic-law-inference",{"title":35,"path":36,"stem":37},"考点 · 中心原子杂化轨道类型判断方法总结","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fatomic-structure\u002Fhybridization-judgment","docs\u002Fchemistry\u002Fzh\u002F01.atomic-structure\u002F7.hybridization-judgment",false,{"title":40,"icon":41,"path":42,"stem":43,"children":44,"page":38},"微粒间作用力与物质性质","i-lucide-link","\u002Fdocs\u002Fchemistry\u002Fzh\u002Finterparticle-forces","docs\u002Fchemistry\u002Fzh\u002F02.interparticle-forces",[45,49,53,57,61,65,69],{"title":46,"path":47,"stem":48},"晶体与晶胞","\u002Fdocs\u002Fchemistry\u002Fzh\u002Finterparticle-forces\u002Fcrystals-unit-cells","docs\u002Fchemistry\u002Fzh\u002F02.interparticle-forces\u002F1.crystals-unit-cells",{"title":50,"path":51,"stem":52},"分子间作用力 分子晶体","\u002Fdocs\u002Fchemistry\u002Fzh\u002Finterparticle-forces\u002Fintermolecular-forces","docs\u002Fchemistry\u002Fzh\u002F02.interparticle-forces\u002F2.intermolecular-forces",{"title":54,"path":55,"stem":56},"共价键 共价晶体","\u002Fdocs\u002Fchemistry\u002Fzh\u002Finterparticle-forces\u002Fcovalent-bonds","docs\u002Fchemistry\u002Fzh\u002F02.interparticle-forces\u002F3.covalent-bonds",{"title":58,"path":59,"stem":60},"金属键 金属晶体","\u002Fdocs\u002Fchemistry\u002Fzh\u002Finterparticle-forces\u002Fmetallic-bonds","docs\u002Fchemistry\u002Fzh\u002F02.interparticle-forces\u002F4.metallic-bonds",{"title":62,"path":63,"stem":64},"离子键 离子晶体","\u002Fdocs\u002Fchemistry\u002Fzh\u002Finterparticle-forces\u002Fionic-bonds","docs\u002Fchemistry\u002Fzh\u002F02.interparticle-forces\u002F5.ionic-bonds",{"title":66,"path":67,"stem":68},"考点 · 化学键与相互作用力","\u002Fdocs\u002Fchemistry\u002Fzh\u002Finterparticle-forces\u002Fchemical-bonds","docs\u002Fchemistry\u002Fzh\u002F02.interparticle-forces\u002F6.chemical-bonds",{"title":70,"path":71,"stem":72},"考点 · 晶体结构","\u002Fdocs\u002Fchemistry\u002Fzh\u002Finterparticle-forces\u002Fcrystal-structures","docs\u002Fchemistry\u002Fzh\u002F02.interparticle-forces\u002F7.crystal-structures",{"title":74,"icon":75,"path":76,"stem":77,"children":78,"page":38},"分子空间结构与物质性质","i-lucide-box","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fmolecular-structure","docs\u002Fchemistry\u002Fzh\u002F03.molecular-structure",[79,83,87,91],{"title":80,"path":81,"stem":82},"价层电子对互斥模型","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fmolecular-structure\u002Fvsepr-model","docs\u002Fchemistry\u002Fzh\u002F03.molecular-structure\u002F1.vsepr-model",{"title":84,"path":85,"stem":86},"杂化理论体系","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fmolecular-structure\u002Fhybridization-theory","docs\u002Fchemistry\u002Fzh\u002F03.molecular-structure\u002F2.hybridization-theory",{"title":88,"path":89,"stem":90},"分子的极性 手性分子","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fmolecular-structure\u002Fmolecular-polarity","docs\u002Fchemistry\u002Fzh\u002F03.molecular-structure\u002F3.molecular-polarity",{"title":92,"path":93,"stem":94},"配合物与超分子","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fmolecular-structure\u002Fcoordination-compounds","docs\u002Fchemistry\u002Fzh\u002F03.molecular-structure\u002F4.coordination-compounds",{"title":96,"icon":97,"path":98,"stem":99,"children":100,"page":38},"有机化学基础","i-lucide-flask-conical","\u002Fdocs\u002Fchemistry\u002Fzh\u002Forganic-chemistry","docs\u002Fchemistry\u002Fzh\u002F04.organic-chemistry",[101,105,109,113,117,121,125,129,133,137,141],{"title":102,"path":103,"stem":104},"研究有机化合物的一般方法","\u002Fdocs\u002Fchemistry\u002Fzh\u002Forganic-chemistry\u002Forganic-research-methods","docs\u002Fchemistry\u002Fzh\u002F04.organic-chemistry\u002F1.organic-research-methods",{"title":106,"path":107,"stem":108},"考点 · 有机反应类型梳理","\u002Fdocs\u002Fchemistry\u002Fzh\u002Forganic-chemistry\u002Forganic-reaction-types","docs\u002Fchemistry\u002Fzh\u002F04.organic-chemistry\u002F10.organic-reaction-types",{"title":110,"path":111,"stem":112},"考点 · 有机推断","\u002Fdocs\u002Fchemistry\u002Fzh\u002Forganic-chemistry\u002Forganic-deduction","docs\u002Fchemistry\u002Fzh\u002F04.organic-chemistry\u002F11.organic-deduction",{"title":114,"path":115,"stem":116},"有机化合物的结构","\u002Fdocs\u002Fchemistry\u002Fzh\u002Forganic-chemistry\u002Forganic-structure","docs\u002Fchemistry\u002Fzh\u002F04.organic-chemistry\u002F2.organic-structure",{"title":118,"path":119,"stem":120},"有机化合物的分类和命名","\u002Fdocs\u002Fchemistry\u002Fzh\u002Forganic-chemistry\u002Forganic-classification","docs\u002Fchemistry\u002Fzh\u002F04.organic-chemistry\u002F3.organic-classification",{"title":122,"path":123,"stem":124},"烃","\u002Fdocs\u002Fchemistry\u002Fzh\u002Forganic-chemistry\u002Fhydrocarbons","docs\u002Fchemistry\u002Fzh\u002F04.organic-chemistry\u002F4.hydrocarbons",{"title":126,"path":127,"stem":128},"烃的衍生物","\u002Fdocs\u002Fchemistry\u002Fzh\u002Forganic-chemistry\u002Fhydrocarbon-derivatives","docs\u002Fchemistry\u002Fzh\u002F04.organic-chemistry\u002F5.hydrocarbon-derivatives",{"title":130,"path":131,"stem":132},"生物大分子","\u002Fdocs\u002Fchemistry\u002Fzh\u002Forganic-chemistry\u002Fbiomacromolecules","docs\u002Fchemistry\u002Fzh\u002F04.organic-chemistry\u002F6.biomacromolecules",{"title":134,"path":135,"stem":136},"化学品的合理使用","\u002Fdocs\u002Fchemistry\u002Fzh\u002Forganic-chemistry\u002Fchemical-safety","docs\u002Fchemistry\u002Fzh\u002F04.organic-chemistry\u002F7.chemical-safety",{"title":138,"path":139,"stem":140},"合成高分子","\u002Fdocs\u002Fchemistry\u002Fzh\u002Forganic-chemistry\u002Fsynthetic-polymers","docs\u002Fchemistry\u002Fzh\u002F04.organic-chemistry\u002F8.synthetic-polymers",{"title":142,"path":143,"stem":144},"有机合成进阶","\u002Fdocs\u002Fchemistry\u002Fzh\u002Forganic-chemistry\u002Forganic-synthesis","docs\u002Fchemistry\u002Fzh\u002F04.organic-chemistry\u002F9.organic-synthesis",{"title":146,"icon":147,"path":148,"stem":149,"children":150,"page":38},"化学物质基本概念","i-lucide-beaker","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-concepts","docs\u002Fchemistry\u002Fzh\u002F05.chemical-concepts",[151,155,159,163,167,171,175,179],{"title":152,"path":153,"stem":154},"物质的组成与分类","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-concepts\u002Fmatter-classification","docs\u002Fchemistry\u002Fzh\u002F05.chemical-concepts\u002F1.matter-classification",{"title":156,"path":157,"stem":158},"物质的计量","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-concepts\u002Fstoichiometry","docs\u002Fchemistry\u002Fzh\u002F05.chemical-concepts\u002F2.stoichiometry",{"title":160,"path":161,"stem":162},"离子方程式","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-concepts\u002Fionic-reactions","docs\u002Fchemistry\u002Fzh\u002F05.chemical-concepts\u002F3.ionic-reactions",{"title":164,"path":165,"stem":166},"离子检验","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-concepts\u002Fion-coexistence","docs\u002Fchemistry\u002Fzh\u002F05.chemical-concepts\u002F4.ion-coexistence",{"title":168,"path":169,"stem":170},"氧化还原反应及其配平","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-concepts\u002Fredox-reactions","docs\u002Fchemistry\u002Fzh\u002F05.chemical-concepts\u002F5.redox-reactions",{"title":172,"path":173,"stem":174},"化学常识","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-concepts\u002Fchemistry-common-sense","docs\u002Fchemistry\u002Fzh\u002F05.chemical-concepts\u002F6.chemistry-common-sense",{"title":176,"path":177,"stem":178},"化学与 STSE","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-concepts\u002Fchemistry-stse","docs\u002Fchemistry\u002Fzh\u002F05.chemical-concepts\u002F7.chemistry-stse",{"title":180,"path":181,"stem":182},"考点 · 离子方程式正误判断","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-concepts\u002Fionic-equation-judgment","docs\u002Fchemistry\u002Fzh\u002F05.chemical-concepts\u002F8.ionic-equation-judgment",{"title":184,"icon":185,"path":186,"stem":187,"children":188,"page":38},"元素及其化合物","i-lucide-test-tubes","\u002Fdocs\u002Fchemistry\u002Fzh\u002Felements-compounds","docs\u002Fchemistry\u002Fzh\u002F06.elements-compounds",[189,193,197,201,205,209,213,217,221,225],{"title":190,"path":191,"stem":192},"钠及其化合物","\u002Fdocs\u002Fchemistry\u002Fzh\u002Felements-compounds\u002Fsodium-compounds","docs\u002Fchemistry\u002Fzh\u002F06.elements-compounds\u002F1.sodium-compounds",{"title":194,"path":195,"stem":196},"金属材料与金属矿物开发","\u002Fdocs\u002Fchemistry\u002Fzh\u002Felements-compounds\u002Fmetallic-materials","docs\u002Fchemistry\u002Fzh\u002F06.elements-compounds\u002F10.metallic-materials",{"title":198,"path":199,"stem":200},"铁及其化合物","\u002Fdocs\u002Fchemistry\u002Fzh\u002Felements-compounds\u002Firon-compounds","docs\u002Fchemistry\u002Fzh\u002F06.elements-compounds\u002F2.iron-compounds",{"title":202,"path":203,"stem":204},"铜及其化合物","\u002Fdocs\u002Fchemistry\u002Fzh\u002Felements-compounds\u002Fcopper-compounds","docs\u002Fchemistry\u002Fzh\u002F06.elements-compounds\u002F3.copper-compounds",{"title":206,"path":207,"stem":208},"镁及其化合物","\u002Fdocs\u002Fchemistry\u002Fzh\u002Felements-compounds\u002Fmagnesium-compounds","docs\u002Fchemistry\u002Fzh\u002F06.elements-compounds\u002F4.magnesium-compounds",{"title":210,"path":211,"stem":212},"铝及其化合物","\u002Fdocs\u002Fchemistry\u002Fzh\u002Felements-compounds\u002Faluminum-compounds","docs\u002Fchemistry\u002Fzh\u002F06.elements-compounds\u002F5.aluminum-compounds",{"title":214,"path":215,"stem":216},"氯与卤族元素","\u002Fdocs\u002Fchemistry\u002Fzh\u002Felements-compounds\u002Fchlorine-halogens","docs\u002Fchemistry\u002Fzh\u002F06.elements-compounds\u002F6.chlorine-halogens",{"title":218,"path":219,"stem":220},"氮及其化合物","\u002Fdocs\u002Fchemistry\u002Fzh\u002Felements-compounds\u002Fnitrogen-compounds","docs\u002Fchemistry\u002Fzh\u002F06.elements-compounds\u002F7.nitrogen-compounds",{"title":222,"path":223,"stem":224},"硫及其化合物","\u002Fdocs\u002Fchemistry\u002Fzh\u002Felements-compounds\u002Fsulfur-compounds","docs\u002Fchemistry\u002Fzh\u002F06.elements-compounds\u002F8.sulfur-compounds",{"title":226,"path":227,"stem":228},"硅及其化合物","\u002Fdocs\u002Fchemistry\u002Fzh\u002Felements-compounds\u002Fsilicon-compounds","docs\u002Fchemistry\u002Fzh\u002F06.elements-compounds\u002F9.silicon-compounds",{"title":230,"icon":231,"path":232,"stem":233,"children":234,"page":38},"化学实验","i-lucide-flame","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-experiments","docs\u002Fchemistry\u002Fzh\u002F07.chemical-experiments",[235,239,243,247,251],{"title":236,"path":237,"stem":238},"实验仪器","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-experiments\u002Flab-equipment","docs\u002Fchemistry\u002Fzh\u002F07.chemical-experiments\u002F1.lab-equipment",{"title":240,"path":241,"stem":242},"实验过程","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-experiments\u002Flab-procedures","docs\u002Fchemistry\u002Fzh\u002F07.chemical-experiments\u002F2.lab-procedures",{"title":244,"path":245,"stem":246},"常见实验","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-experiments\u002Fcommon-experiments","docs\u002Fchemistry\u002Fzh\u002F07.chemical-experiments\u002F3.common-experiments",{"title":248,"path":249,"stem":250},"文字描述题模板","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-experiments\u002Fexam-templates","docs\u002Fchemistry\u002Fzh\u002F07.chemical-experiments\u002F4.exam-templates",{"title":252,"path":253,"stem":254},"考点 · 滴定实验","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-experiments\u002Ftitration","docs\u002Fchemistry\u002Fzh\u002F07.chemical-experiments\u002F5.titration",{"title":256,"icon":257,"path":258,"stem":259,"children":260,"page":38},"化学反应能量与速率","i-lucide-gauge","\u002Fdocs\u002Fchemistry\u002Fzh\u002Freaction-energy-rate","docs\u002Fchemistry\u002Fzh\u002F08.reaction-energy-rate",[261,265],{"title":262,"path":263,"stem":264},"化学反应速率与限度","\u002Fdocs\u002Fchemistry\u002Fzh\u002Freaction-energy-rate\u002Freaction-rate-limits","docs\u002Fchemistry\u002Fzh\u002F08.reaction-energy-rate\u002F1.reaction-rate-limits",{"title":266,"path":267,"stem":268},"化学反应速率","\u002Fdocs\u002Fchemistry\u002Fzh\u002Freaction-energy-rate\u002Freaction-rate-advanced","docs\u002Fchemistry\u002Fzh\u002F08.reaction-energy-rate\u002F2.reaction-rate-advanced",{"title":270,"icon":271,"path":272,"stem":273,"children":274,"page":38},"化学平衡","i-lucide-scale","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-equilibrium","docs\u002Fchemistry\u002Fzh\u002F09.chemical-equilibrium",[275,279,283],{"title":276,"path":277,"stem":278},"化学平衡状态","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-equilibrium\u002Fequilibrium-state","docs\u002Fchemistry\u002Fzh\u002F09.chemical-equilibrium\u002F1.equilibrium-state",{"title":280,"path":281,"stem":282},"化学平衡常数知识点","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-equilibrium\u002Fequilibrium-constant","docs\u002Fchemistry\u002Fzh\u002F09.chemical-equilibrium\u002F2.equilibrium-constant",{"title":284,"path":285,"stem":286},"水溶液中的离子反应","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fchemical-equilibrium\u002Faqueous-ionic-reactions","docs\u002Fchemistry\u002Fzh\u002F09.chemical-equilibrium\u002F3.aqueous-ionic-reactions",{"title":288,"icon":289,"path":290,"stem":291,"children":292,"page":38},"化学反应的热效应","i-lucide-thermometer","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fthermochemistry","docs\u002Fchemistry\u002Fzh\u002F10.thermochemistry",[293,297,301],{"title":294,"path":295,"stem":296},"反应热与焓变","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fthermochemistry\u002Freaction-heat-enthalpy","docs\u002Fchemistry\u002Fzh\u002F10.thermochemistry\u002F1.reaction-heat-enthalpy",{"title":298,"path":299,"stem":300},"热化学方程式","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fthermochemistry\u002Fthermochemical-equations","docs\u002Fchemistry\u002Fzh\u002F10.thermochemistry\u002F2.thermochemical-equations",{"title":302,"path":303,"stem":304},"盖斯定律","\u002Fdocs\u002Fchemistry\u002Fzh\u002Fthermochemistry\u002Fhess-law","docs\u002Fchemistry\u002Fzh\u002F10.thermochemistry\u002F3.hess-law",{"id":306,"title":134,"body":307,"config":415,"description":416,"extension":417,"links":415,"meta":418,"navigation":419,"path":135,"seo":420,"stem":136,"__hash__":421},"docs_chemistry_zh\u002Fdocs\u002Fchemistry\u002Fzh\u002F04.organic-chemistry\u002F7.chemical-safety.md",{"type":308,"value":309,"toc":412},"minimark",[310,314],[311,312,313],"p",{},"本课针对新方案高考课本编写。",[315,316,317,338,358],"ol",{},[318,319,320,321,324,325,327,332],"li",{},"化肥与农药",[322,323],"br",{},"有机氯、磷农药、氨基甲酸酯和拟除虫酯等有机合成农药：高效、低毒、低残留。",[322,326],{},[328,329],"img",{"alt":330,"src":331},"","https:\u002F\u002Fptg90phsi6rf8j7h.public.blob.vercel-storage.com\u002Fchemistry\u002F7.1.webp",[333,334,335],"blockquote",{},[311,336,337],{},"有机氯农药：DDT 转变为 DDE 后毒性降低昆虫表现出抗药性。",[318,339,340,341,343,344,346,347,349,352,354,355,357],{},"药物",[322,342],{},"阿司匹林（乙酰水杨酸）",[322,345],{},"解热镇痛，以水杨酸为原料：",[322,348],{},[328,350],{"alt":330,"src":351},"https:\u002F\u002Fptg90phsi6rf8j7h.public.blob.vercel-storage.com\u002Fchemistry\u002F7.2.webp",[322,353],{},"将阿司匹林和聚甲基丙烯酸（试着写出其结构简式？）连接，得到的缓释阿司匹林可作为抗血栓长效药。",[322,356],{},"青蒿素：抗疟疾。对青蒿素进行修饰、改造后得到新药。",[318,359,360,361],{},"食品添加剂（有二十多类功能）",[315,362,363,385,391],{},[318,364,365,366,368,369,371,372,374,375,377,380],{},"着色剂、增味剂",[322,367],{},"天然色素有：红曲红、β-胡萝卜素、姜黄、叶绿素铜钠盐、焦糖色",[322,370],{},"合成色素有：苋菜红、柠檬黄、靛蓝",[322,373],{},"味精（谷氨酸钠）是常用的增味剂，最早是从海带中发现并提取的，现在主要通过淀粉发酵生产。",[322,376],{},[328,378],{"alt":330,"src":379},"https:\u002F\u002Fpic3.zhimg.com\u002F80\u002Fv2-c029e03e626992e6aee03e9b2a6e8b2e_720w.webp",[333,381,382],{},[311,383,384],{},"谷氨酸钠（可以不画出立体结构）",[318,386,387,388,390],{},"凝固剂",[322,389],{},"葡萄糖酸-内酯（现代制豆腐常用）",[318,392,393,394],{},"防腐剂、抗氧化剂",[395,396,397,400,403,409],"ul",{},[318,398,399],{},"苯甲酸及其钠盐、山梨酸及其钾盐是常用的防腐剂。",[318,401,402],{},"抗坏血酸（即维生素C）可被氧化为脱氢抗坏血酸，是水果罐头、饮料中常用的抗氧化剂。",[318,404,405,406,408],{},"叔丁基对苯二酚（TBHQ）是一种抗氧化剂，在市售食用油中普遍加入。",[322,407],{},"由于不饱和脂肪酸甘油酯中含有碳碳双键，在空气中放置久了会被氧化，产生过氧化物和醛类等，变质的油脂有一种难闻的“哈喇”味，不能食用。",[318,410,411],{},"丁基羟基茴香醚（BHA）在脂肪、乳化脂肪制品中使用。",{"title":330,"searchDepth":413,"depth":413,"links":414},2,[],null,"讨论化学品的合理使用，包括化肥与农药、药物如阿司匹林和青蒿素，以及食品添加剂的种类和作用。","md",{},true,{"title":134,"description":416},"HLg8tuB6huWROjatA-0agSIhKbdKOXxOEkZ53y41ABc",[423,425],{"title":130,"path":131,"stem":132,"description":424,"children":-1},"介绍生物大分子包括糖类、蛋白质和核酸，重点讲解糖类的分类、单糖的性质和多糖的结构与功能。",{"title":138,"path":139,"stem":140,"description":426,"children":-1},"介绍合成高分子的方法，包括加聚反应和缩聚反应，举例说明聚乙烯、酚醛树脂等高分子的合成过程。",1778558886292]