Korea Institute Of Science And Technology Patent Portfolio Statistics

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Korea Institute Of Science And Technology

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This article summarizes the perfomance of the assignee in the recent years. The overall statistics for this portfolio help to analyze the areas where the assignee is performing well. The filing trend, perfomance across the tech centers and the perfomance of the recent applications has been mentioned below. All the stats are calculated based on the perfomance in USPTO.

How does the overall patent portfolio of Korea Institute Of Science And Technology look like?

	Assignee	Art Units
Total Applications:	2,343	2,199,030
Granted Patents:	1,504	1,282,882
Grant Index	73.4% ↑	71.6%
Abandoned/Rejected Applications:	545 (26.6%)	508,940 (28.4%)
In-Process Applications:	285	407,208
Average Grant Time:	2.59 Years ↓	2.72 Years
Average Office Actions:	1.48 ↓	1.62

Which Technology Area Korea Institute Of Science And Technology is filing most patents in? (Last 10 years)

Art Unit	Definition	Total Applications
Opap	Parked GAU	113
1736	Metallurgy, Metal Working, Inorganic Chemistry, Catalyst, Electrophotography, Photolithography	58
1732	Metallurgy, Metal Working, Inorganic Chemistry, Catalyst, Electrophotography, Photolithography	51
1726	Fuel Cells, Battery, Flammable Gas, Solar Cells, Liquid Crystal Compositions	43
1624	Organic Chemistry	34

How many patents are Korea Institute Of Science And Technology filing every year?

Year	Total Applications	Predicted
2022	0*	403
2021	63*	286
2020	169	323
2019	149	149
2018	141	–
2017	147	–
2016	145	–
2015	114	–
2014	130	–
2013	177	–

*The drop in the number of applications filed in last two years compared to previous years is because applications can take up to 18 months to get published

Recently filed patent applications of Korea Institute Of Science And Technology in USPTO?

Publication number: US20220190228A1
Application number: 17/551,072

Abstract:
Provided is a method of preparing an SnSe thermoelectric material including (a) heating a mixture including Sn2+ and Se2−, (b) cooling the mixture at a cooling rate greater than 0 and equal to or less than 3 K/h, and forming single crystal Sn1−xSe (where 0<x<1), and an SnSe thermoelectric material prepared thereby and including Sn vacancies.

Publication date: 2022-06-16
Applicant: Korea Institute Of Science And Technology
Inventors: Kim Kyoo

Publication number: US20220233700A1
Application number: 17/617,000

Abstract:
The present disclosure relates to a pharmaceutical composition comprising a nucleic acid molecule of an adjuvant, a metal complex stabilizing the nucleic acid molecule, and optionally an immunogen that may be a peptide or a protein, or a composition of stabilizing the nucleic acid molecule of the adjuvant comprising the metal complex. The metal complex interacts with the nucleic acid molecule of the adjuvant and/or the immunogen so as to stabilize such pharmaceutically active ingredients, and induces continuous effectiveness of the active ingredients without degradation.

Publication date: –
Applicant: Korea Institute Of Science And Technology
Inventors: Bang Eun Kyoung

Publication number: US20220233992A1
Application number: 17/616,523

Abstract:
According to an embodiment of the present invention, in order to perform fine particle agglomeration by outputting a low frequency sound wave and then remove fine particles, there is provided a method for fine particle agglomeration, the method including: an initial fine particle measuring step of generating fine particle measurement data including a pollution level of fine particles in a purification region and outputting the data to a sound source converting unit, by a fine particle measuring unit; a low frequency and sound pressure data extracting step of extracting a low frequency and sound pressure of a low frequency sound source stored in a storage to be used for agglomeration of fine particles, based on the fine particle measurement data, by the sound source converting unit; a sound source converting step of converting an output sound source into the low frequency sound source such that the low frequency sound source has the extracted low frequency and sound pressure data, by the sound source converting unit; and a fine particle agglomeration performing step of causing fine particles to agglomerate by receiving the low frequency sound source and outputting the low frequency sound source as a low frequency sound wave for agglomeration of fine particles, by a low frequency sound wave generating unit.

Publication date: –
Applicant: Korea Institute Of Science And Technology
Inventors: Hyo Lee Soo

How are Korea Institute Of Science And Technology’s applications performing in USPTO?

Application Number	Title	Status	Art Unit	Examiner
17/551,072	Method Of Improving Thermoelectric Performance Of Snse Thermoelectric Material	–	OPAP	Central, Docket
17/617,000	Pharmaceutical Composition Containing Stabilized Nucleic Acid Adjuvant	Docketed New Case – Ready for Examination	OPAP	Central, Docket
17/616,523	Fine Particle Aggregation Method And Apparatus	Docketed New Case – Ready for Examination	OPAP	Central, Docket
17/537,707	Austenitic Stainless Steel Containing Niobium And Manufacturing Method Of The Same	Docketed New Case – Ready for Examination	OPAP	Central, Docket
17/536,358	Chemical Mechanical Polishing Pad Having Pattern Substrate	Docketed New Case – Ready for Examination	OPAP	Central, Docket