Yichun Fan scite author profile

In the past few decades, alignment control and directed self-assembly of block copolymer thin films have been widely investigated. Most approaches, however, require chemically or topographically prepatterned substrates, increasing the processing complexity. In this work, we present a facile strategy to form well-aligned block copolymer thin films by photoinduced alignment under solvent vapor annealing (PA-SVA) without chemically or topographically prepatterned substrates. Polystyrene-block-poly(ethylene oxide) (PS-b-PEO) consisting of two polymer blocks with distinct hydrophilicities and mechanical properties is incorporated with 4-butyl-4′-hydroxyazobenzene (4AzOH) to achieve the light-assisted self-assembly. Under solvent vapor annealing, the PS-b-PEO chains are swollen and possess mobilities. Upon polarized light irradiations, light-responsive azobenzene molecules undergo trans–cis–trans isomerization and achieve photoinduced alignment. The arrangement of the azobenzene molecules can further induce the alignment of the PS-b-PEO chains through supramolecular interactions between the phenol groups of the 4AzOH and the ether groups of the PEO chains. AFM-IR measurements are applied to characterize the selective blending of the 4AzOH molecules in the PEO segments. With different PA-SVA times, the transitions of the PS-b-PEO phase separation can be observed; the alignment of the PS-b-PEO/4AzOH films is further characterized by orientation analysis. The facile design of the PA-SVA strategy not only enables the manipulation of light-responsive molecules in block copolymer chains but also provides an alternative way for obtaining well-ordered block copolymer thin films.

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Testing and Evaluation of a 20-Gsps High-Resolution Waveform Digitizer Based on TIADC Technique

Dong

Liu

Qin

et al. 2021

J. Phys.: Conf. Ser.

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Time-Interleaved Analog-to-Digital Conversion (TIADC) is one of the significant technique in high speed waveform digitization systems. In our latest work, a 20-Gsps 12-bit TIADC system is designed and a series of tests are conducted on the proposed system and a broadband mismatch error correction is implemented. The test methods and results are specifically presented in this paper. The test results show that the -3dB bandwidth of the proposed system is 6 GHz and the ENOB performance is about 8.7 bits at 647 MHz and 7.6 bits at 6 GHz which is significantly enhanced by the mismatch error correction process.

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Yichun Fan

Design of a 20-Gsps 12-bit time-interleaved analog-to-digital conversion system

Research and Verification on Real-Time Interpolated Timing Algorithm Based on Waveform Digitization

Prototype of Clock and Timing Distribution and Synchronization Electronics for SHINE

Photoinduced Alignment under Solvent Vapor Annealing (PA-SVA): Enhanced Ordering and Patterning in Block Copolymer Films

Testing and Evaluation of a 20-Gsps High-Resolution Waveform Digitizer Based on TIADC Technique

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