求翻译化学类文献~高分
\u6c42\u7ffb\u8bd1 \u5316\u5b66\u7c7b\u6587\u732e\u8bbe\u8ba1\u548c\u5408\u6210\uff1a6\u82ef\u57fa-2,2\u2019-\u4e8c\u5421\u5576\uff08HC\u2227N\u2227N\uff09\u548c1,3-\u4e8c\uff08\u5421\u5576-2-yl\uff09\u82ef\uff08HN\u2227C\u2227N\uff09\u4ee3\u8868\u7528\u4e8e\u73af\u91d1\u5c5e\u94c2II\u7cfb\u7edf\u7684\u666e\u901a\u03c0\u5171\u8f6d\u4e09\u9f7f\u73af\u91d1\u5c5e\u914d\u4f53\u3002\u53ef\u662f\uff0c\u8fd9\u4e9b\u6210\u719f\u7684\u914d\u4f53\u7cfb\u7edf\u96be\u4e8e\u8fdb\u4e00\u6b65\u6539\u6027\u6216\u5b98\u80fd\u5316\u30021-\u5421\u5511\u57fa-NH\u5728\u65b0\u7684\u73af\u91d1\u5c5e\u914d\u4f53HL1\u4e0a\u7684\u5b58\u5728\u4f7f\u5176\u80fd\u901a\u8fc7\u4eb2\u6838\u53d6\u4ee3\u800c\u5bb9\u6613\u7684\u5b98\u80fd\u5316\u3002[14] \u6211\u4eec\u901a\u8fc7\u5728HL1\u4e0a\u76841-\u5421\u5511\u57fa-NH\u573a\u6240\u75281,5-\u76f4\u63a5\u70f7\u5316\u800c\u6f14\u793a\u4e86\u8fd9\u4e00\u70b9\u3002\u5bf9\u5728HL2\u4e0a\u7684\u7aef\u4e8c\u6eb4\u620a\u916e\u7528PPh3\u8fdb\u4e00\u6b65\u4eb2\u6838\u53d6\u4ee3\u4ea7\u751f\u4e86\u4e09\u82ef\u57fa\u81a6\u5b98\u80fd\u5316\u7684\u73af\u91d1\u5c5e\u914d\u4f53\u3001\u4e09\u82ef\u57fa\uff5b5[3-(6-\u82ef\u57fa\u5421\u5576-2-yl)-1H\u5421\u5511-1-yl]\u6b63\u620a\u57fa\uff5d\u6eb4\u5316\u81a6\uff08HL3\uff09\uff08\u65b9\u68481\uff09HL3\u7684\u6c2f\u5316\u7269\u76d0\u7528\u7b80\u5355\u7684\u7f6e\u6362\u83b7\u5f97\u3002\u76f8\u5e94\u7684\u73af\u91d1\u5c5e\u94c2II\u6c2f\u5316\u7269\u6c2f\u5316\u7269[Pt(L3)Cl]+\u901a\u8fc7HL3\uff08\u6c2f\u5316\u7269\u76d0\uff09\u4e0eK2PtCl4\u5728\u51b0\u918b\u9178\u4e2d\u7684\u76f4\u63a5\u70f7\u5316\u4f5c\u7528\u4ee5\u826f\u597d\u7684\u4ea7\u7387\u83b7\u5f97\u3002\u6240\u6709\u62a5\u9053\u7684\u65b0\u914d\u4f53\u548c\u73af\u94c2\u5316\u7edc\u5408\u7269\u90fd\u5df2\u7ecf\u75281H\u6838\u78c1\u5171\u632f\u5149\u8c31\u6cd5\u548c\u8d28\u8c31\u6cd5\u5145\u5206\u8868\u5f81\u8fc7\u3002
\u7ebf\u6027\u5149\u7269\u7406\u7814\u7a76\uff1a[Pt(L3)Cl]+\u5728\u4e0d\u540c\u6eb6\u5242\u4e2d\u7684\u7535\u5b50\u8dc3\u8fc1\u5149\u8c31\u793a\u4e8e\u56fe1A\u4e2d\u3002\u7edc\u5408\u7269\u7684\u5149\u8c31\u5b66\u6027\u8d28\u8868\u660e\u4e86\u5bf9\u5176\u76f8\u5173\u7684[Pt(L1)Cl]+\u7edc\u5408\u7269\u6709\u5f3a\u70c8\u7684\u76f8\u4f3c\u6027\u3002\u5176\u7d2b\u5916\u53ef\u89c1\u5149\u533a\u5927\u7ea6275\uff5e375nm\u7531\u5f3a\u70c8\u7684\u5438\u6536\u5e26\u4e3b\u5bfc\uff0c\u6d88\u5149\u7cfb\u6570\uff08\u03b5\uff09\u5728104dm3mol\uff0d1cm\uff0d1\u7684\u91cf\u7ea7\uff0c\u800c\u5728380\uff5e410nm\u7684\u4e0d\u592a\u5f3a\u7684\u5438\u6536\u5e26\uff0c\u03b5\u5728103dm3mol\uff0d1cm\uff0d1\u7684\u91cf\u7ea7\u3002\u53c2\u8003\u4ee5\u524d\u5bf9\u6a21\u62df\u7684[Pt(C\u2227N\u2227N)Cl]+\u548c[Pt(L1)Cl]+\u7edc\u5408\u7269\u7684\u5149\u8c31\u5b66\u7814\u7a76\uff0c\u5728275\uff5e375nm\u5904\u7684\u5438\u6536\u5e26\u5f52\u56e0\u4e8e\u914d\u4f53\u5185\u7684 \u8dc3\u8fc1\uff0c\u800c\u5728380\uff5e410nm\u51fa\u7684\u8f83\u4f4e\u5438\u6536\u5e26\u5219\u5f52\u56e0\u4e8e\u81ea\u65cb\u5141\u8bb8\u7684 \u91d1\u5c5e\u5230\u914d\u4f53\u7684\u7535\u8377\u8f6c\u79fb\uff081MLCT\uff09\u8fc1\u79fb\u3002\u8f83\u4f4e\u80fd\u5e26\u7684\u03bbmax\u662f\u4e0e\u6eb6\u5242\u6709\u5173\u7684\uff0c\u4ece\u7532\u9187\u7684387nm\u6f02\u79fb\u5230\u6c2f\u4eff\u7684393nm\u3002\u8fd9\u652f\u6301\u4e86\u5438\u6536\u5e26\u6765\u81ea\u4e8e\u7535\u8377\u8f6c\u79fb\u7684\u8bf4\u6cd5\u3002
\u767e\u5ea6\u8fd9\u91cc\u5f88\u5c11\u6709\u8fd9\u79cd\u80fd\u7ffb\u8bd1\u4e13\u4e1a\u6587\u732e\u7684\u4eba\u624d\u51fa\u73b0\uff0c\u4f60\u53bb\u5c0f\u6728\u866b\u90a3\u91cc\u770b\u770b\u5427
这里,电荷-中性有机铂(II)络合物通过搅拌相应的前体[4-R1-(N∧C∧N)PtCl](R1=CF3[10g], H[13a], 或CH3[13b]),以及在存在NaOH情况下在甲醇中过量的芳香基乙炔化物中,于室温下一天时间[14]以定量的产率予以制备,这种电荷-中性有机铂(II)络合物称为[4-R1-(N∧C∧N)PtC≡CC6H4-4’-R2](1-8, N∧C∧N=1,5-bis(2’-pyridyl)benzene)。值得注意的是,当R1是CF3时,络合物1-6的固体显示各种不同的颜色,它取决于芳香基乙炔化物配体上的取代基R2(方案1)。当R2为吸电子基团(对5为CF3而对6为NO2)、供电子基团(对3为OCH3,对4为N(CH3)2)或相对中性的基团(对1为H,对2为F)时,固体分别为亮黄色、深红色或暗绿色。当R1为H或CH3时,在将R2从吸电子基团改变成供电子基团时观察不到这样的颜色反差;固体的颜色是黄色的,就如方案1络合物7和8所描绘的那样。
固态下有机铂(II)络合物的颜色通常与金属间互作用相关[15]。对于络合物1(图1)、4(支持信息中的图S1)和17(支持信息中的图S2)的晶体,各种不同封装模式已用X射线检晶仪鉴别,它们分别显示为绿色、红色和黄色的固体[16]。络合物1和4的突出的特点是在正交结构中分子间PtII…PtII/π-π和C-H…π(C≡C)互作用的体现。
The charge-neutral organoplatinum(II) complexes herein,充中性organoplatinum(II)配合外,
namely [4-R1-(N^C^N)PtC CC6H4-4'-R2] (1–8, N^CH^N=即[4 - R1至(不适用荤^ ^ N)的PTC的CC6H4 - 4' - R2的](1-8,ñ ^ ^ ñ =甲烷
1,5-bis(2'-pyridyl)benzene), were prepared in quantitative 1,5 -二(2' -吡啶基)苯),准备在数量
yields by stirring the corresponding precursor, [4-R1-由搅拌相应的前体,收益率[4 - R1至
(N^C^N)PtCl] (R1=CF3,[10g] H,[13a] or CH3 (不适用荤^ ^ N)的巴基斯坦电信](右=氟碳,[10g中]小时,[第13A条]或Ch3和
[13b]), and an [第13B]),以及
excess of aryl acetylene in methanol in the presence of在芳乙炔过量甲醇在的存在
NaOH for one day at room temperature.[14] It is notable that氢氧化钠一天在室温下。[14]值得注意的是,
when R1 is CF3, the solids of complexes 1–6 display various R1是氟碳时,配合物1-6显示的各种固体
colors, depending on the substituent R2 on the aryl acetylide颜色,取决于对R2的芳基取代乙炔
ligand (Scheme 1).配体(计划1)。 When R2 is an electron-withdrawing group当R2是吸电子集团
(CF3 for 5 and NO2 for 6), an electron-donating group (OCH3 (氟碳5和6二氧化氮,一个电子)基团(OCH3
for 3 and N(CH3)2 for 4), or a relatively neutral group (H for 1 3和4 N(下CH3)2的),或一个相对中立组(H 1
and F for 2), the solid is bright yellow, deep red, or dark green和2架F),固体呈鲜黄色,深红色,或墨绿色
in color, respectively.在颜色,分别为。 When R1 is H or CH3, no such color当R1是H或Ch3和没有这样的颜色
contrast was observed upon varying R2 from electron-withdrawing对比后发现,从不同的电子R2的撤出
to -donating groups; the solids are yellow in color, as对捐赠的群体;的固体是黄色的颜色,
depicted for complexes 7 and 8 in Scheme 1.描绘为配合7和计划1 8。
Colors of organoplatinum(II) complexes in the solid state颜色的organoplatinum(二)在固态物
are usually associated with intermetal interactions.[15] Various通常与金属间的相互作用。[15]各种
packing modes have been identified by X-ray crystallography包装方式已确定用X射线晶体学
for crystals of complexes 1 (Figure 1), 4 (Figure S1 in the为配合物1晶体(图1),4(在图中一
Supporting Information), and 7 (Figure S2 in the Supporting支持信息),7(图中二中的支持
Information), which appear as green, red, and yellow solids,信息),这似乎为绿色,红色和黄色固体,
respectively.[16] The salient features in the crystal structures of分别。[16]的晶体结构的显着特点
both 1 and 4 are the intermolecular PtII···PtII/p–p and 1和4是分子PtII · · · PtII /个P - p和
CH···p(CC) interactions in an orthogonal configuration.甲烷· ·产品P(CC)的相互作用在正交配置。
很乱,凑合着看吧。
绛旓細鐢变簬閽屽鍚″暥閰嶅悎鐗╋紝濡俒Ru(bpy)3]2þ (1; bpy琛ㄧず2,20-浜屽悺鍟)锛屽叿鏈夎壇濂界殑鍏夌墿鐞嗘ц川銆佹縺鍙戞佸弽搴旀у拰鍖栧绋冲畾鎬э紝瀹冧滑鍦ㄥお闃宠兘杞崲,浜哄伐鍏夊悎浣滅敤鍜屽厜浼犳劅棰嗗煙涓槸琚爺绌舵鏁版渶澶氱殑銆傚叾涓緢閲嶈鐨勪竴绉嶉厤鍚堢墿鏄 鈥淒NA鍏夊紑鍏斥 鍒嗗瓙 [Ru(bpy)2(dppz)]2þ (2; dppz琛ㄧず浜屽悺鍟禰3...
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绛旓細鍏ㄦ枃缈昏瘧濡備笅锛欴iuronadsorption isotherms 鏁岃崏闅嗗惛闄勭瓑娓╃嚎 The data corresponding to the adsorption of diuron onto AC at different temperatures without pH control are shown in Fig. 2a鈥揷.鍥 2a-c 灞曠ず浜嗗湪娌℃湁鎺у埗閰哥⒈搴︾殑鎯呭喌涓嬶紝AC鍦ㄤ笉鍚屾俯搴︽椂瀵规晫鑽夐殕鐨勫惛闄勯噺銆侫s can be seen, they ...
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