Search Results - "Shackery, Iman"

Phosphorus-Doped Graphene Oxide Layer as a Highly Efficient Flame Retardant by Some, Surajit, Shackery, Iman, Kim, Sun Jun, Jun, Seong Chan

“…A simple and easy process has been developed to efficiently dope phosphorus into a graphene oxide surface. Phosphorus‐doped graphene oxide (PGO) is prepared by…”
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Multiplexed DNA-functionalized graphene sensor with artificial intelligence-based discrimination performance for analyzing chemical vapor compositions by Hwang, Yun Ji, Yu, Heejin, Lee, Gilho, Shackery, Iman, Seong, Jin, Jung, Youngmo, Sung, Seung-Hyun, Choi, Jongeun, Jun, Seong Chan

“…This study presents a new technology that can detect and discriminate individual chemical vapors to determine the chemical vapor composition of mixed chemical…”
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Effect of Extrinsic Disorder on the Magnetoresistance Response of Gated Single-Layer Graphene Devices by Pezeshki, Atiye, Hamdi, Anoir, Yang, Zuchong, Lubio, Aura, Shackery, Iman, Ruediger, Andreas, Razzari, Luca, Orgiu, Emanuele

“…Analogous to the case of classical metal oxide semiconductor field-effect transistors, transport properties of graphene-based devices are determined by…”
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Static and Dynamic Performance of Complementary Inverters Based on Nanosheet α‑MoTe2 p‑Channel and MoS2 n‑Channel Transistors by Pezeshki, Atiye, Hosseini Shokouh, Seyed Hossein, Jeon, Pyo Jin, Shackery, Iman, Kim, Jin Sung, Oh, Il-Kwon, Jun, Seong Chan, Kim, Hyungjun, Im, Seongil

“…Molybdenum ditelluride (α-MoTe2) is an emerging transition-metal dichalcogenide (TMD) semiconductor that has been attracting attention due to its favorable…”
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Copper Hydroxide Nanorods Decorated Porous Graphene Foam Electrodes for Non-enzymatic Glucose Sensing by Shackery, Iman, Patil, Umakant, Pezeshki, Atiye, Shinde, Nanasaheb M., Kang, Shinill, Im, Seongil, Jun, Seong Chan

“…The structure of flower-like copper hydroxide (Cu(OH)2) standing on pore structure of graphene(PGF) was fabricated via a simple and cost-effective chemical…”
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Frontispiece: Phosphorus-Doped Graphene Oxide Layer as a Highly Efficient Flame Retardant by Some, Surajit, Shackery, Iman, Kim, Sun Jun, Jun, Seong Chan

“…Flame Retardant Materials A simple and easy process developed to efficiently dope phosphorus into a graphene oxide surface is reported by S. Some, S. C. Jun et…”
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Enhanced Non-enzymatic amperometric sensing of glucose using Co(OH)2 nanorods deposited on a three dimensional graphene network as an electrode material by Shackery, Iman, Patil, Umakant, Pezeshki, Atiye, Shinde, Nanasaheb M., Im, Seongil, Jun, Seong Chan

“…We report on the synthesis of cobalt dihydroxide [Co(OH) 2 ] nanorods and their deposition on a 3-dimensional graphene network via chemical bath deposition…”
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Graphene-Iodine Nanocomposites: Highly Potent Bacterial Inhibitors that are Bio-compatible with Human Cells by Some, Surajit, Sohn, Ji Soo, Kim, Junmoo, Lee, Su-Hyun, Lee, Su Chan, Lee, Jungpyo, Shackery, Iman, Kim, Sang Kyum, Kim, So Hyun, Choi, Nakwon, Cho, Il-Joo, Jung, Hyo-Il, Kang, Shinill, Jun, Seong Chan

“…Graphene-composites, capable of inhibiting bacterial growth which is also bio-compatible with human cells have been highly sought after. Here we report for the…”
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Sensitivity Enhancement in Nickel Hydroxide/3D-Graphene as Enzymeless Glucose Detection by Shackery, Iman, Patil, Umarkant, Song, Min-Jung, Sohn, Ji Soo, Kulkarni, Sachin, Some, Surajit, Lee, Su Chan, Nam, Min Sik, Lee, Wooyoung, Jun, Seong Chan

“…A nickel hydroxide (Ni(OH)2)/3D‐graphene composite is used as monolithic free‐standing electrode for enzymeless electrochemical detection of glucose. Ni(OH)2…”
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Enhanced Non-enzymatic amperometric sensing of glucose using Co.sub.2 nanorods deposited on a three dimensional graphene network as an electrode material by Shackery, Iman, Patil, Umakant, Pezeshki, Atiye, Shinde, Nanasaheb M, Im, Seongil, Jun, Seong Chan

“…We report on the synthesis of cobalt dihydroxide [Co(OH).sub.2] nanorods and their deposition on a 3-dimensional graphene network via chemical bath deposition…”
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Static and Dynamic Performance of Complementary Inverters Based on Nanosheet α-MoTe 2 p -Channel and MoS 2 n -Channel Transistors by Pezeshki, Atiye, Hosseini Shokouh, Seyed Hossein, Jeon, Pyo Jin, Shackery, Iman, Kim, Jin Sung, Oh, Il-Kwon, Jun, Seong Chan, Kim, Hyungjun, Im, Seongil

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