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您的足迹: Linux、Windows桌面系统:使用图形界面提交任务、指定任务核数 错误:页面未找到 AMS免费试用 半导体、有机半导体、载流子迁移[目录]
adf:organicsemiconductor

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半导体、有机半导体、载流子迁移[目录]

  1. 四噻吩并茂骨架中噻吩并[2,3-b]噻吩亚结构的未揭示效应:重组能和分子间相互作用(chem. mater. 2022)
  2. 双纳米环主客体配合物中的光诱导电子转移(Journal of Nanostructure in Chemistry 2022)
  3. Stone-Wales拓扑缺陷增强石墨烯/金属界面的键合与电子耦合(ACS Nano 2022)
  4. 1,3,6,8-四(甲基硫)芘:硫原子对晶体结构和传输特性的影响(Chem. Mater. 2022)
  5. 有机半导体介电常数工程:平面度和共轭长度的影响(ADV FUNCT MATER 2021)
  6. 基于双氰基萘并二硫代二唑的N型半导体聚合物:不利骨架扭曲的高电子迁移率(Chem. Mater. 2021)
  7. 具有永久中孔结构的稳定锆基PCN-222 MOF的工程电导率(Chemistry of Materials, 2020)
  8. DNA结合剂的新用途-氢键有机半导体(Nat. Comm. 2019)
  9. 电子耦合如何决定分子晶体不同晶相的能量稳定性?(Chem. Mater., 2019)
  10. 混合沉积法制备二维有机半导体提升场效应晶体管载流子迁移率(Advanced Science, 2019)
  11. DNA发夹中深能级空穴转移导致超快电荷迁移(Nature Chemistry, 2016)
  12. 独立于模型的电荷迁移定量化(Chem. Commun,2015)

其他

2022

  1. 氮和硼掺杂的多环芳烃作为钙钛矿太阳能电池的空穴传输材料(Journal of Electronic Materials 2022)
  2. 有机半导体中噻吩类结构类似物的磷茂(Chem. Commun. 2022)
  3. 内禀迁移率高于2,6-二苯基蒽的电荷输运材料的理论探索:2,6-二吡啶蒽的三种异构体(Phys. Chem. Chem. Phys., 2022)
  4. Azulene End-Capped 1,3,4-Thiadiazole as an n-Type Organic Semiconductor with a Herringbone–Brickwork Cooperative 2D Layered Structure(Cryst. Growth Des. 2022)
  5. 碗状双环戊[ghi,pqr]苝衍生物电荷输运和光电性质的理论研究(ACS Appl. Electron. Mater. 2022)
  6. 准平面硼团簇的光电特性的DFT研究(Chemical Physics Letters 2022)
  7. 石墨烯/SiO2复合材料界面相互作用的DFT模拟(MAT SCI SEMICON PROC 2022)
  8. 侧官能化和氮杂取代对苝基有机材料电荷输运和光学性质的协同效应:DFT研究(New Journal of Chemistry 2022)
  9. Relationship between Halogen-Halogen Interaction and Electric Conductivity in Thiazolo[2,3-a]isoquinolin-7-ium Triiodides(Journal of Molecular Structure 2022)
  10. 银修饰铋烯气敏性能及湿度效应的DFT研究(Materials Science in Semiconductor Processing 2022)

2021

  1. 通过π堆积和硫键结合的二维相互作用网络形成独特十字形层状堆积的S形噻吩乙炔半导体(J MATER CHEM C 2021)
  2. Massive Dipoles across Metallic/Semiconductor Clusters Interface: Towards Chemically Controlled Rectification(Phys. Chem. Chem. Phys. 2021)
  3. 氟化氢刻蚀二氧化硅的ReaxFF分子动力学模拟(ACS Omega 2021)
  4. Unveiling the Effects of Substituents on the Packing Motif and the Carrier Transport of Dinaphtho-Thieno-Thiophene (DNTT)-based Material(New Journal of Chemistry 2021)
  5. 含芳基取代基的蒽衍生物在2,6位热稳定“人字形”堆积基序上电荷输运性质的理论研究(Phys. Chem. Chem. Phys. 2021)
  6. The first representative of a new class of charge transfer complexes in o-quinone series for organic semiconductors(Materials Today Chemistry 2021)
  7. 乙炔桥联蒽齐聚物的合成及电荷传输性能评价(Macromolecular Chemistry and Physics 2021)
  8. 吡嗪类化合物及其结构近亲电子和电荷输运性质的第一性原理研究(Chem. Phys. Lett. 2021)
  9. 热膨胀和简并度对非外周己基取代酞菁双极载流子迁移率的影响(APPL PHYS EXPRESS 2021)
  10. 三氮烷晶体分子堆积相互作用和电荷输运性质的理论研究——从解释到预测( Phys. Chem. Chem. Phys. 2021)
  11. 8-羟基喹啉锌基有机半导体薄膜的结构和光电性能研究(Electronics 2021)

2020及以前

  1. 开壳层石墨烯碎片的电荷输运特性:苯并咪唑瓦片的计算研究(Phys. Chem. Chem. Phys. 2020)
  2. 揭开卤化对azzaacee基电子传输材料中晶体填充的异常影响(Materials Chemistry and Physics 2020)
  3. 苝基集光天线分子中的定向电荷转移(J. Chem. Phys. 2020)
  4. 萘二亚胺-螺旋噻吩酮:一种具有高电子迁移率、良好溶解性和热稳定固相的螺旋分子(Chem. Comm. 2020)
  5. High Vertical Carrier Mobilities of Organic Semiconductors due to Deposited Laid-down Herringbone Structure Induced by a Reduced Graphene Oxide Template (ACS Appl. Mater. Interfaces 2020)
  6. Ternary mixed-anion semiconductors with tunable band gaps from machine-learning and crystal structure prediction (Phys. Rev. Materials 2019)
  7. Electron transfer and charge transport of photoelectric material in external electric field (Organic Electronics 2018)
  8. A theoretical approach for simulations of anisotropic charge carrier mobility in organic single crystal semiconductors (Organic Electronics 2018)
  9. Intrinsic charge carrier mobility in single-crystal OFET by “fast trapping vs. slow detrapping” model (Organic Electronics 2018)
adf/organicsemiconductor.1671065357.txt.gz · 最后更改: 2022/12/15 08:49 由 liu.jun

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