Learn more

DISPERSOL TECH LLC

Overview
  • Total Patents
    33
  • GoodIP Patent Rank
    46,577
  • Filing trend
    ⇧ 11.0%
About

DISPERSOL TECH LLC has a total of 33 patent applications. It increased the IP activity by 11.0%. Its first patent ever was published in 2014. It filed its patents most often in United States, Canada and China. Its main competitors in its focus markets pharmaceuticals, chemical engineering and measurement are MEDISCA PHARMACEUTIQUE INC, FOSHAN FOCHAN HEALTH MAN CO LTD and LU RUJIAO.

Patent filings per year

Chart showing DISPERSOL TECH LLCs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Miller Dave A 15
#2 Ellenberger Daniel J 10
#3 Kucera Sandra U 8
#4 Miller Dave 8
#5 Schilling Sandra U 8
#6 Keen Justin M 7
#7 Gala Urvi 7
#8 Brough Chris 7
#9 Miller Dave Alan 2
#10 Chris Brough 2

Latest patents

Publication Filing date Title
US2021087191A1 SUBSTITUTED 3-ISOBUTYL-9,10-DIMETHOXY-1,3,4,6,7,11B-HEXAHYDRO-2H-PYRIDO[2,1-a]ISOQUINOLIN-2-OL COMPOUNDS, THEIR SYNTHESIS, AND USE THEREOF
WO2020190900A1 Abiraterone-cyclic oligomer pharmaceutical formulations and methods of formation and administration thereof
CA3081358A1 Improved drug formulations
WO2019060525A1 Abiraterone-cyclic oligomer pharmaceutical formulations and methods of formation and administration thereof
CN109663524A The direct probe sensing temperature method that the speed of temperature-sensitive part for the melt blended batch of thermokinetics changes
CA2979451A1 Direct probe sensed temperature method for speed change for heat sensitive portions of a thermokinetically melt blended batch
JP2019048777A Method of speed changing by temperature sensed by direct probe for heat sensitive portion of thermokinetically molten and blended batch
EP3454847A1 Improved drug formulations
US2017027911A1 Formulations of deferasirox and methods of making the same
US2017333404A1 Improved formulations of vemurafenib and methods of making the same
US9821283B1 Direct probe sensed temperature method for speed change for heat sensitive portions of a thermokinetically melt blended batch
AU2014391109A1 Multiple speed process for preserving heat sensitive portions of a thermokinetically melt blended batch