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RADTECH ASIA 2025 AND RADTECH CHINA 2025

August, Suzhou, Jiangsu Province, China

The 17th International Conference on Radiation Curing in Asia (RadTech Asia 2025), and the 26th RadTech China Annual Conference 2025 (RadTech China 2025), will be held in August,12-15, Suzhou, Jiangsu province, China. The conference will include presentations, exhibitions, and seminars, etc. We sincerely invite you to submit an abstract for the presentations. Due to the limited space, please submit it before the deadline, and the speaker will enjoy a discounted conference price. The Presentations and Poster Sessions have equal status and are two different venues for presenting new science and technology.

Please consider the following suggested topics, but not limited.

A. Area Overviews (Asia, China, Japan, North America, Europe, Korea, etc.)

B. Materials (Electronic materials, Composite materials, Nanomaterials, Monomers, Resins,Photoinitiators, Additives, etc.)

C. Formulations & Applications (Coatings, Inks, Adhesives, Lithography, UV LED, 3D Printing, EB, Lithography, Biomaterials, etc.)

D. New Technological and Application Breakthroughs (New Energy, Artificial Intelligence, Ecological Agriculture, Aerospace, etc.)

E. Light sources, Equipment, & Devices (UV, EB, UV LED, Excimer Lamp, etc.)

F. Others (Laws and Regulations, Patents, Standards, etc.)

 

Guidelines for abstract and full paper submission

Deadline for abstract submission:                  May 10, 2025

Guidelines for full paper Submission              May 30, 2025


Notes:

  •  Abstract or full paper must be written in English. It is very kind of you to submit it before the deadline.

  •  Please download the form and fill it out. Abstract or full paper must be e-mailed to radtechchina@126.com, as an attached file of the MS-Word or Pdf format.

  •  As to oral presentation, it would be appreciated if you could send us an electronic photograph in JPG format and a brief self-introduction of the speakers as attached files.

  •  Any change is available at any time before the deadline. If you need to withdraw your abstract or full paper, a written statement reflecting the reasons must be sent to the email radtechchina@126.com.


Download the  abstract confirmation form  and full paper template



Guidelines for Presentation Submission

  •  It would be appreciated if you could send us your presentation even if it is not the final version before August 5th. You will be asked to check your presentation data at the Speaker's Room on-site.

  •  All presentations must be e-mailed to radtechchina@126.com as an attached file of the Power Point Slides format.



Presentations:

  1. Present situation and development trend of radiation curing industry in China—Hongbo Liang (RadTech China / Nanchang Hangkong University )

  2. A Review of Radiation Curing in Japan—Koji Arimitsu(RadTech Japan Association / Tokyo Institute of Technology)

  3.  A Review of Radiation Curing in Korea—Hyung Chul Kim(RadTech Korea Association / Shinyoung Radiation Chemistry Co., Ltd. Korea)

  4.  A Review of Radiation Curing in North America—Gary M. Cohen(RadTech International North America)

  5. The creation of fluorine-containing UV-curing surface material—Fengling Qing(Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences)

  6. Study on the structure and performance regulation of photopolymerized hydrogels—Xiaoqun Zhu (Beijing University of Chemical Technology / Jiangsu Jicui Photosensitive Electronic Materials Research Institute Co., Ltd.)

  7. Synthesis and properties of soluble self-microporous photosensitive polyimide—Yongbing Zhuang (Institute of Process Engineering, Chinese Academy of Sciences)

  8.  Application and prospect of aviation composite material additive manufacturing technology—Bo Zhang(AVIC Manufacturing Technology Institute)

  9. Development trend and research progress of digital inkjet ink—Beiqing Huang(Beijing Institute of Graphic Communication)

  10.  Construction of Photonic Crystals in Polymer Films Induced by Photocrosslinking—Xuesong Jiang(Shanghai Jiao Tong University)

  11. Research on Ink Direct Writing 3D Printing Based on Near Infrared Photopolymerization—Ren Liu(Jiangnan University)

  12.  Performance Regulation of UV Curable Photosensitive Resin and Preparation of Microfluidic Chips via SLA 3D Printing—Shizhuo Xiao(Technical Institute of Physics and Chemistry, CAS)

  13.  Research on femtosecond laser direct writing two-photon micro-nano 3D printing—Xuefeng Fan(Yangfan New Materials (Zhejiang) Co., Ltd)

  14.  Applications of Photocuring 3D Printing in Elastomers: From Materials Development to Functional Applications—Rui Chen(Shenzhen Esun Industrial Co., Ltd)

  15. UV-assisted ink direct writing 3D printing and its application—Shuangzhuang Guo(Sun Yat-sen University)

  16. Rational Design of Oxygen Tolerant Photoinitiating Systems for Conventional and Radical Polymerization—Bernd Strehmel(Niederrhein University of Applied Sciences)

  17. Advances in photoinitiating systems for radical photopolymerization—Xavier Allonas(Université de Haute-Alsace)

  18. Preparation of carbazole-coumarin-based photoinitiators and their single/two-photon initiation properties—Ming Jin(Tongji University)

  19. Research and Development of TPO Alternatives—Yulian Pang(Hubei Gurun Technology Co., Ltd. / Beijing Normal University)

  20. Synthesis and Application of Macromolecular PhotoinitiatorZhenhua LiuIGM Group

  21. Study on the properties of low yellowing oxime ester photoinitiatorShoucheng DongWISPO Advanced Materials (SuZhou) Co., Ltd.

  22. Sustainable 3D Printing Based on A Multifunctional PhotoinitiatorJieping WangHangzhou Institute for Advanced Study. UCAS

  23. Development of Macrocyclic Photoinitiators with Low Migration RatesYincheng ChangBeijing University of Chemical Technology

  24. New Photoinitiators with acrylate moietySyunya HORII, Rui MAEDAOsaka Organic Chemical Industry Ltd.

  25. Synthesis and performance study of visible-light-sensitive α-keto aryl thioester photoinitiatorsWeifeng MaBeijing University of Chemical Technology

  26. The application of oca in folding displayLigen QiaoGuangzhou Lushan Xingbang Optical Materials Co., Ltd.

  27. Application of full radiation-curing coatings on coil productsXianfeng LiuAkzo Nobel Performance Coatings (Shanghai) Co., Ltd.

  28. Preparation and Application Research of UV-curable Waterborne Strippable CoatingsJingcheng LiuJiangnan University

  29. Self-healing UV curable coatings based on tandem dynamic bondsJiang ZhongJiangxi Science and Technology Normal University

  30. Current Applications and Challenges of Radiation Curing Technology in Optical Functional FilmsChangfeng LiuHefei Lucky Technology Industry Co., Ltd.

  31. Research on Achieving Excimer Skin-Feel with Waterborne UV CoatingMingyu ZhangJiaxing Ruishi Chemical Co., Ltd.

  32. Nanoprinting technology and performance requirements for UV adhesivesHe LouChengdu Xigu Science and Technology Co., Ltd.

  33. Photocuring self-wrinkle coating and its mechanical adaptabilityJin LiShanghai Jiao Tong University

  34. The Dao of Sustainability: Harmony in UV Curing through Biobased Photoinitiators and Energy Curing ResinsStephen R PostleB.C.H. America, Inc

  35. Study on the application and alternative of epoxidation and methacrylated cottonseed oil in radiation curingVeronika StrehmelHochschule Niederrhein University of applied sciences

  36. Design of Blocked Isocyanate Functional Monomers and Low-temperature Curable PhotoresistsJin WangHefei University of Technology

  37. Study on full-color holographic photopolymer materialsYuxia ZhaoTechnical Institute of Physics and Chemistry, CAS

  38. Synthesis and research of light-cured self-healing resinShanshan LiuGuangZhou SongDa New Material Technology Co., Ltd.

  39. Properties and applications introduction of Karenz series isocyanate monomersSonghai ShaoResonac Holdings Corporation

  40. Synthesis of renewable, low-taste, low-irritation (metha)acrylate and its methodChengchao BaiShanxi Jinchuan Synthetic Materials Co., Ltd.

  41. Research on the Design and Performance of Light-curing Materials Based on F-POSSLianbin WuHangzhou Normal University

  42. Development and Evaluation of Dual-Curing OligomerPendingGuangzhou Run'ao Chemical Materials Co., Ltd.

  43. Application of Double Curing Resin in Three-proof PaintYoukang HeYingde Aomakang High - molecular New Materials Co., Ltd.

  44. Design and construction of cyclic-contained light-cured resins and their application in the fabrication of soldermask dry filmsYang HuSouth China Agricultural University

  45. High-performance oligomers contribute to the sustainable development of 3D printingFengting ChenHanarey Chemical (Shanghai) Co., Ltd.

  46. Discussion on synthesis and application of aliphatic polyurethaneZhihong ChenNanxiong Ketian Chemical Co., Ltd.

  47. Application of supramolecular chemistry technology in the synthesis of functional UV resinChunyan ZhengZhongshan Jesida Fine - Chemical Co., Ltd.

  48. Basic Properties and Application of Special Aliphatic (Meth)acrylatesZhijian HuangGuangdong Huajinda New Material Technology Co., Ltd.

  49. Polyurethane-Epoxy Photo-Thermal Dual-Curing Resin and Its PropertiesZhongbiao XieHangzhou Normal University

  50. The fabrication of microcapsule via photopolymerization and its application in functional coatingJing LuoJiangnan University

  51. Bio-based UV-curable Urethane AcrylatesPendingGuangzhou Run'ao Chemical Materials Co., Ltd.

  52. Review of Biodegradable Material - Polylactic AciBing NieResearch Institute of Lekai Huaguang Printing Technology Co., Ltd.

  53. Construction of zwitterionic hydrogel coating on medical catheter surface by UV light curing and its biological function regulationXiaojie LiJiangnan University

  54. Versatile fabrication of hydrogel coatings with shell powder as a key IngredientLiuyan TangWuyi University / Guangdong Sanqiu Photocuring Materials Co., Ltd.

  55. Modeling of UV Coating Monomers Using Graph Neural Networks and High Throughput FormulationGaoyuan ZhangHochschule Niederrhein University of applied sciences

  56. Photosensitive Units Assisted Self-Repairing Elastomers and Tumor TreatmentJun YinHefei University of Technology

  57. Accelerating the Establishment of Photoinitiator (PI) Data Bank and Development of High-Performance PIs through Synergism of Artificial Intelligence and Quantum ChemistryHongchen JiJiangnan University

  58. Multiple hydrogen bonded 3D printed elastomers with enhanced toughening by photothermal dual curing for customizable biomimetic flexible grippersQiaoling ZhangHangzhou Normal University

  59. The application status and development of UV LED in many industriesDonglei ZhangCooluv Technology Inc.

  60. Introduction to Dual Curing MaterialsShangshi LuoEternal Materials Co., Ltd.

  61. Application of Polar AIE Probes for Real-Time Visualization Monitoring of the Polarity Change in the Microenvironment of Photocurable Process and in situ Construction of Antibacterial Polymeric Membrane.Qing WanNanchang Hangkong University

  62. Innovation of low-energy electron accelerators and applications in EB curingPeng ChengCgn Dasheng Electron Accelerator Technology Co., Ltd.

  63. Compact Ultra-High Power N₂-Protected UV Curing System Bridging Lab Research and Industrial ProductionXiaoming GuoNortz Optical Technology Co., Ltd.

  64. Introduction to the application of resin curing detection technology-DEA/DSC/rheology-UV combinationPing LiuNetzsCh (Shanghai) Machinery & Instruments Co., Ltd.

  65. Design, synthesis and properties of oxetane-based silicon-containing monomersLu CuiBeijing University of Chemical Technology

  66. A new continent of radiation curing application technology - the concept of radiation curing technology to prepare low-density Fracturing Proppant for oil and gas fieldsJianwen ZhouSinochem Chenguang Chemical Research & Design Institute Co., Ltd.

  67. Preparation of POSS-based hydrophobic coatings by Uv-initiated thiol-ene reactionHongzhi LiuShandong University

  68. Safety Risk Assessment of Chemical Reactions Throughout the Entire Life Cycle of Chemicals and Development of Safe ProcessesXuefeng GuiCAS Guangzhou Chemistry Co., Ltd. / Guangzhou Institute of Chemistry, Chinese Academy of Sciences

  69. Biomass Cyclic Amidine Photobase Generators and their Applications in Crosslinking and CuringGaolang XiaoHefei University of Technology

  70. Using a photodriven radical-mediated [3+2] cyclization reaction to prepare embolic agents from allyl-like monomers for transcatheter arterial embolization against terminal-stage hepatocellular cancerGuodong YeGuangzhou Medical University

  71. Cation / free radical double curing formula analysis and innovative applicationZhenzhen LiYantai Donghua Materials Science Co., Ltd.

  72. The effect of allyloxy substitution on the photochemical properties of thioxanthone and its application in visible light LED photopolymerizationJie HouTongji University

  73. A novel water-soluble coumarin ketone pyridine salt photoinitiator for antibacterial coatings can be excited by visible light LEDYangyang LiTongji University

  74. Study on one / two-photon initiation properties of nitrocarbazole-styryl oxime ester / ketoxime esterJie XieTongji University

  75. Application of Radiation Curing in High-end Custom Furniture CoatingXiangke WangZhan Chen New Materials Group Co., Ltd.

  76. Analysis of the formulation of national standards and industry standards in the field of UV curing ( materials, products )Xudong HanGuangzhou Longzhu Chemical Co., Ltd.

  77. How to submit the analysis of the adhesion of the UV system to the metal substrateHuang HuangRAHN Ruian Trading (Shanghai) Co., Ltd.

  78. Design and Application of Photothermal-Phase Change Synergistic and Self-Healing Mechanism-Based Superhydrophobic Anti-Icing CoatingsShujun LiuNanchang Hangkong University

  79. Analysis technology accurately empowers UV curing product research and development breakthroughsLu LiuShanghai WEIPU Testing Technology Group Co., Ltd.

  80. Development and progress of UV curable long chain alkyl di ( methyl ) acrylate and bismaleimide with low dielectric propertiesTomoya MIZUMORIOsaka Organic Chemical Industry Co., Ltd.

  81. The influence of different light source schemes on UV skin feeling effect in coating production is discussedYonglin TangDongguan Landun Mechanical and Electrical Equipment Technology Co., Ltd.

  82. A new generation of DUV chip and packaging technology and its application in the field of photocuringXueliang ZhangHinchytek Optoelectronics (Shenzhen) Co., Ltd. (LSP Ltd.)

  83. Exploration of Experience in Developing and Quality Traceability System for New Chemical Materials Based on DeepSeek+RAGHaoliang LiuQiye (Foshan) Software Co., Ltd.

  84. Development and Application of UV Inkjet Photocuring Monomer and ResinHan XieJiangsu Sanmu Group Co., Ltd.

  85. Automobile innovative material technology driven by five modernizationsZhangyin LiChery Automobile Co., Ltd.

  86. Preparation of High-Refractive-Index Polymers Based on Thioxanthone-Based Unsaturated Monomers via Thiol-Ene Click ReactionLe Ma Beijing University of Chemical Technology

  87. Preparation of novel oligomers and membrane materials based on photopolymerizationQiang ZhangNanjing University of Science and Technology

  88. UV curing performance of cycloaliphatic epoxy resin and solutions to common problemsDapeng LiDaiCeL (CHINA) InvestmenT Co., Ltd.