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SHANGHAI NOVEL CHEMICAL TECHNOLOGY CO LTD

Overview
  • Total Patents
    12
  • GoodIP Patent Rank
    226,211
About

SHANGHAI NOVEL CHEMICAL TECHNOLOGY CO LTD has a total of 12 patent applications. Its first patent ever was published in 2009. It filed its patents most often in China. Its main competitors in its focus markets environmental technology are OOO OB EDINENNYJ TS I I RAZRABOTOK OOO RN TSIR, SHANGHAI BAOFINE ENGINEERING & TECHNOLOGY CO LTD and INST BIOLOG KARELSKOGO FILIALA.

Patent filings in countries

World map showing SHANGHAI NOVEL CHEMICAL TECHNOLOGY CO LTDs patent filings in countries
# Country Total Patents
#1 China 12

Patent filings per year

Chart showing SHANGHAI NOVEL CHEMICAL TECHNOLOGY CO LTDs patent filings per year from 1900 to 2020

Focus industries

Focus technologies

Top inventors

# Name Total Patents
#1 Wen Huaiyou 7
#2 Tan Yun 7
#3 Yun Tan 5
#4 Xia Jianchao 5
#5 Ning Xu 4
#6 Ziyu Liu 4
#7 Huaiyou Wen 3
#8 Xia Juan 3
#9 Haijun Xing 2
#10 Shao Jun 2

Latest patents

Publication Filing date Title
CN105129815A Preparation method of crystalline-state silico-aluminum-phosphate material
CN103787355A Beta molecular sieve synthesizing method
CN103232044A Synthesis method of nanoscale MCM-49 (Multi Chip Module) molecular sieve
CN103214001A Preparation method of titanium silicalite molecular sieve catalyst with high performance
CN103041855A Preparation method of catalysts for dichloro-pyridine oxynitride
CN102627297A Synthetic method for SAPO (Silicoaluminophosphate)-34 molecular sieve
CN102616806A Method for preparing high-performance titanium and silicon molecular sieve
CN101654394A Method for synthesizing unsym-trimethyl benzene by BTX aromatic hydrocarbon methylation
CN101632937A Method for preparing catalyst for synthesizing propylene by adopting methanol or dimethyl ether as raw material
CN101618884A Method for preparing Magadiite/ZSM-35 eutectic molecular sieve
CN101613114A ZSM-23 molecular sieve preparation method
CN101618335A Method for preparing catalyst for compounding p-diethylbenzene by alkylation reaction of ethylbenzene and ethane or alcohol