Diradicaloid Strategy for High‐Efficiency Photothermal Conversion and High‐Sensitivity Detection of Near Infrared Light

[1]  Xuying Liu,et al.  Stimuli‐Responsive Antibacterial Materials: Molecular Structures, Design Principles, and Biomedical Applications , 2022, Advanced science.

[2]  B. Tang,et al.  Diradical‐Featured Organic Small‐Molecule Photothermal Material with High‐Spin State in Dimers for Ultra‐Broadband Solar Energy Harvesting , 2021, Advanced materials.

[3]  Chun‐Sing Lee,et al.  A Diradicaloid Small Molecular Nanotheranostic with Strong Near-Infrared Absorbance for Effective Cancer Photoacoustic Imaging and Photothermal Therapy. , 2021, ACS applied materials & interfaces.

[4]  B. Tang,et al.  Biradical‐Featured Stable Organic‐Small‐Molecule Photothermal Materials for Highly Efficient Solar‐Driven Water Evaporation , 2020, Advanced materials.

[5]  Zhengtao Zhu,et al.  Nanomaterial Design for Efficient Solar-Driven Steam Generation , 2019, ACS Applied Energy Materials.

[6]  Somnath Dey Recent Progress in Molecular Design of Fused Ring Electron Acceptors for Organic Solar Cells. , 2019, Small.

[7]  Koichiro Uto,et al.  Functional biomaterials towards flexible electronics and sensors. , 2018, Biosensors & bioelectronics.

[8]  Lianhe Liu,et al.  Cheap, Flexible, and Thermal-Sensitive Paper Sensor through Writing with Ionic Liquids Containing Pencil Leads. , 2017, ACS applied materials & interfaces.

[9]  J. Casado Para-Quinodimethanes: A Unified Review of the Quinoidal-Versus-Aromatic Competition and its Implications , 2017, Topics in Current Chemistry.

[10]  M. Haley,et al.  Explorations of the Indenofluorenes and Expanded Quinoidal Analogues. , 2017, Accounts of chemical research.

[11]  T. Kubo,et al.  Benzenoid Quinodimethanes , 2017, Topics in Current Chemistry.

[12]  Jishan Wu,et al.  Diradical approach toward organic near infrared dyes , 2016 .

[13]  R. Webster,et al.  Extended Bis(benzothia)quinodimethanes and Their Dications: From Singlet Diradicaloids to Isoelectronic Structures of Long Acenes. , 2016, Angewandte Chemie.

[14]  Dongho Kim,et al.  A Diradical Approach towards BODIPY-Based Dyes with Intense Near-Infrared Absorption around λ=1100 nm. , 2016, Angewandte Chemie.

[15]  Yonglin He,et al.  A Self‐Healing Electronic Sensor Based on Thermal‐Sensitive Fluids , 2015, Advanced materials.

[16]  Wenbin Du,et al.  Integrating Ultra‐Thermal‐Sensitive Fluids into Elastomers for Multifunctional Flexible Sensors , 2015 .

[17]  K. Houk,et al.  A Solid‐State Effect Responsible for an Organic Quintet State at Room Temperature and Ambient Pressure , 2015, Advanced materials.

[18]  Liang Cheng,et al.  Functional nanomaterials for phototherapies of cancer. , 2014, Chemical reviews.

[19]  Jishan Wu,et al.  Low band gap polycyclic hydrocarbons: from closed-shell near infrared dyes and semiconductors to open-shell radicals. , 2012, Chemical Society reviews.

[20]  Byung Sun Lee,et al.  Kinetically blocked stable heptazethrene and octazethrene: closed-shell or open-shell in the ground state? , 2012, Journal of the American Chemical Society.

[21]  E. Canesi,et al.  Biradicaloid and Polyenic Character of Quinoidal Oligothiophenes Revealed by the Presence of a Low-Lying Double-Exciton State , 2010 .

[22]  P. Koutentis,et al.  Catalytic Oxidation of N-Phenylamidrazones to 1,3-Diphenyl-1,4-dihydro-1,2,4-benzotriazin-4-yls:An Improved Synthesis of Blatter’s Radical , 2010 .

[23]  Gang Qian,et al.  Near-infrared organic compounds and emerging applications. , 2010, Chemistry, an Asian journal.

[24]  Zhengming Li,et al.  Synthesis and Antifungal Activities of New Pyrazole Derivatives via 1,3‐dipolar Cycloaddition Reaction , 2010, Chemical biology & drug design.

[25]  L. Salem Diradicals , 1973 .

[26]  J. Thiele,et al.  Ueber einen chinoïden Kohlenwasserstoff , 1904 .