Fast and Highly Sensitive Ionic-Polymer-Gated WS2 -Graphene Photodetectors

This is the final version of the article. Available from Wiley via the DOI in this record.The combination of graphene with semiconductor materials in heterostructure photodetectors enables amplified detection of femtowatt light signals using micrometer-scale electronic devices. Presently, long-lived charge traps limit the speed of such detectors, and impractical strategies, e.g., the use of large gate-voltage pulses, have been employed to achieve bandwidths suitable for applications such as video-frame-rate imaging. Here, atomically thin graphene-WS2 heterostructure photodetectors encapsulated in an ionic polymer are reported, which are uniquely able to operate at bandwidths up to 1.5 kHz whilst maintaining internal gain as large as 10(6) . Highly mobile ions and the nanometer-scale Debye length of the ionic polymer are used to screen charge traps and tune the Fermi level of the graphene over an unprecedented range at the interface with WS2 . Responsivity R = 10(6) A W(-1) and detectivity D* = 3.8 × 10(11) Jones are observed, approaching that of single-photon counters. The combination of both high responsivity and fast response times makes these photodetectors suitable for video-frame-rate imaging applications.J.D.M. acknowledges financial support from the Engineering and Physical Sciences Research Council (EPSRC) of the United Kingdom, via the EPSRC Centre for Doctoral Training in Metamaterials (Grant No. EP/L015331/1 ). S.F.R acknowledges financial support from the Higher Committee for Education Development in Iraq (HCED). S.R. and M.F.C. acknowledge financial support from EPSRC (Grant No. EP/J000396/1, EP/K017160/1, EP/K010050/1, EP/G036101/1, EP/M001024/1, and EP/M002438/1) and from Royal Society International Exchanges Scheme 2016/R1

Graphene coated fabrics by ultrasonic spray coating for wearable electronics and smart textiles

This is the author accepted manuscript. The final version is available on open access from IOP Publishing via the DOI in this recordThe seamless incorporation of electronics in textiles have the potential to enable various applications ranging from sensors for the internet of things to personalised medicine and human-machine interfacing. Graphene electronic textiles are a current focus for the research community due to the exceptional electrical and optical properties combined with the high flexibility of this material, which makes it the most effective strategy to achieve ultimate mechanical robustness of electronic devices for textile integrated electronics. An efficient way to create electronic textiles is to fabricate devices directly on the fabric. This can be done by coating the textile fabric with graphene to make it conductive. Here we discuss successful and efficient methods for coating graphene nanoplatelets (GNPs) on textile substrates of nylon, polyester and meta-aramid using ultrasonic spray coating technique. These coatings are characterised by scanning electron microscopy, contact angle and electrical conductivity measurements in order to identify the optimal textile electrode. Our study provides the foundation for the large-area fabrication of graphene electronic textiles.Engineering and Physical Sciences Research Council (EPSRC

Rencana Bisnis “Wave Visuel” dengan Menggunakan Strategi Digital Marketing

Rencana bisnis ini bertujuan untuk menidentifikasikan, menganalisis serta mengembangkan strategi bisnis WAVE VISUEL terkait dengan strategi digital marketing yang seperti apa yang akan digunakan dalam pengembangannya. Rencana bisnis ini menggunakan analisis strategi digital marketing seperti instagram, website, twitter, facebook, youtube. Rencana bisnis ini menjelaskan tentang bagaimana WAVE VISUEL akan mengembangkan usahanya dengan strageti pemasaran produk yang akan dijual sehingga pendapatan yang diperoleh akan meningkat. Diharapkan rencana bisnis yang akan dihasilkan dapat membantu pengembangannya sampai lima tahun kedepan