J
Jun Ma
Researcher at Harbin Institute of Technology
Publications - 1523
Citations - 58397
Jun Ma is an academic researcher from Harbin Institute of Technology. The author has contributed to research in topics: Nasopharyngeal carcinoma & Medicine. The author has an hindex of 97, co-authored 1338 publications receiving 39643 citations. Previous affiliations of Jun Ma include Shenyang Aerospace University & University of Technology, Sydney.
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Prognostic Value of Deep Learning PET/CT-Based Radiomics: Potential Role for Future Individual Induction Chemotherapy in Advanced Nasopharyngeal Carcinoma
Hao Peng,Di Dong,Mengjie Fang,Lu Li,Lu Li,Ling Long Tang,Lei Chen,Wen Fei Li,Yan Ping Mao,Wei Fan,Li Zhi Liu,Li Tian,Ai Hua Lin,Ying Sun,Jie Tian,Jie Tian,Jie Tian,Jun Ma +17 more
TL;DR: Deep learning PET/CT-based radiomics could serve as a reliable and powerful tool for prognosis prediction and may act as a potential indicator for individual IC in advanced NPC.
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Impact of Crystal Types of AgFeO2 Nanoparticles on the Peroxymonosulfate Activation in the Water
TL;DR: The catalytic performance of Ag FeO2 NPs was found to be significantly enhanced with the increasing content of 2H-AgFeO2, which promoted the concentration of surface hydroxyl groups ( C-OH) and the reactivity of AgFeO 2 NPs for PMS activation.
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From carbon nanotubes and silicate layers to graphene platelets for polymer nanocomposites
Izzuddin Zaman,Hsu-Chiang Kuan,Jingfei Dai,Nobuyuki Kawashima,Andrew Michelmore,Alex Sovi,Songyi Dong,Lee Luong,Jun Ma +8 more
TL;DR: A potential trend is pointed out where GnPs would replace carbon nanotubes and silicate layers for many applications of polymer nanocomposites due to its exceptionally high mechanical performance and electrical and thermal conductivity.
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N-doped porous carbon with magnetic particles formed in situ for enhanced Cr(VI) removal.
TL;DR: The newly designed N-doped porous carbon with magnetic nanoparticles formed in situ (RHC-mag-CN) demonstrated a very quick adsorption property for the removal of Cr(VI), and shows perfect magnetic separation performance from aqueous solution.
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Efficient Reduction of CO2 into Formic Acid on a Lead or Tin Electrode using an Ionic Liquid Catholyte Mixture
TL;DR: Addition of a small amount of H2 O to an ionic liquid/acetonitrile electrolyte mixture significantly enhanced the efficiency of the electrochemical reduction of CO2 into formic acid (HCOOH) on a Pb or Sn electrode, and the efficiency was extremely high using an ionics liquid/ACetonitriles/H2 O ternary mixture.