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Extract from the Register of European Patents

EP About this file: EP3022552

EP3022552 - ENVIRONMENTAL SENSOR, METHOD OF MAKING THE SENSOR AND METHOD FOR DETERMINING RELATIVE VAPOUR PRESSURE [Right-click to bookmark this link]
Former [2016/21]AN ENVIRONMENTAL SENSOR AND A METHOD FOR DETERMINING RELATIVE VAPOUR PRESSURE
[2019/25]
StatusNo opposition filed within time limit
Status updated on  25.09.2020
Database last updated on 15.06.2024
FormerThe patent has been granted
Status updated on  18.10.2019
FormerGrant of patent is intended
Status updated on  16.06.2019
Most recent event   Tooltip08.07.2022Lapse of the patent in a contracting state
New state(s): MK		published on 10.08.2022  [2022/32]
Applicant(s)For all designated states
LytEn, Inc.
933 Kifer Road, Suite B
Sunnyvale, CA 94086 / US
[2019/45]
Former [2019/19]For all designated states
Provenance Asset Group LLC
55 Crescent Hill Road
Pittsford, NY 14534 / US
Former [2016/21]For all designated states
Nokia Technologies OY
Karaportti 3
02610 Espoo / FI
Inventor(s)01 / WHITE, Richard
24 Old Pound Close
Hemingford Grey
Huntingdon, Cambridgeshire PE28 9DY / GB
02 / BORINI, Stefano
6 St. Stephens Place
Cambridge CB3 0JE / GB
 [2016/21]
Representative(s)Potter Clarkson
Chapel Quarter
Mount Street
Nottingham NG1 6HQ / GB
[N/P]
Former [2019/47]Potter Clarkson
The Belgrave Centre
Talbot Street
Nottingham NG1 5GG / GB
Former [2016/21]Nokia Corporation
Intellectual Property Department
Karakaari 7
02610 Espoo / FI
Application number, filing date14825934.425.06.2014
[2016/21]
WO2014FI50513
Priority number, dateGB2013001265816.07.2013         Original published format: GB 201312658
[2016/21]
Filing languageEN
Procedural languageEN
PublicationType: A1 Application with search report
No.:WO2015007947
Date:22.01.2015
Language:EN
[2015/03]
Type: A1 Application with search report 
No.:EP3022552
Date:25.05.2016
Language:EN
The application published by WIPO in one of the EPO official languages on 22.01.2015 takes the place of the publication of the European patent application.
[2016/21]
Type: B1 Patent specification 
No.:EP3022552
Date:20.11.2019
Language:EN
[2019/47]
Search report(s)International search report - published on:FI22.01.2015
(Supplementary) European search report - dispatched on:EP03.03.2017
ClassificationIPC:G01N27/414, G01L9/00, // G01N27/02
[2019/25]
CPC:
G01N27/4141 (EP,US); G01N27/02 (EP,GB,US); G01N7/14 (US);
G01L19/00 (GB); G01L9/0098 (EP,US); G01N27/048 (GB);
G01N27/121 (GB) (-)
Former IPC [2016/21]G01N27/414, G01L9/00, H01L29/06
Designated contracting statesAL,   AT,   BE,   BG,   CH,   CY,   CZ,   DE,   DK,   EE,   ES,   FI,   FR,   GB,   GR,   HR,   HU,   IE,   IS,   IT,   LI,   LT,   LU,   LV,   MC,   MK,   MT,   NL,   NO,   PL,   PT,   RO,   RS,   SE,   SI,   SK,   SM,   TR [2016/21]
Extension statesBANot yet paid
MENot yet paid
TitleGerman:UMGEBUNGSSENSOR, VERFAHREN ZU DESSEN HERSTELLUNG UND VERFAHREN ZUR BESTIMMUNG EINES RELATIVEN DAMPFDRUCKS[2019/25]
English:ENVIRONMENTAL SENSOR, METHOD OF MAKING THE SENSOR AND METHOD FOR DETERMINING RELATIVE VAPOUR PRESSURE[2019/25]
French:CAPTEUR ENVIRONNEMENTAL, PROCÉDÉ POUR FABRIQUER LE CAPTEUR ET PROCÉDÉ POUR DÉTERMINER LA TENSION DE VAPEUR RELATIVE[2019/25]
Former [2016/21]UMGEBUNGSSENSOR UND VERFAHREN ZUR BESTIMMUNG EINES RELATIVEN DAMPFDRUCKS
Former [2016/21]AN ENVIRONMENTAL SENSOR AND A METHOD FOR DETERMINING RELATIVE VAPOUR PRESSURE
Former [2016/21]CAPTEUR ENVIRONNEMENTAL ET PROCÉDÉ POUR DÉTERMINER LA TENSION DE VAPEUR RELATIVE
Entry into regional phase13.01.2016National basic fee paid 
13.01.2016Search fee paid 
13.01.2016Designation fee(s) paid 
13.01.2016Examination fee paid 
Examination procedure13.01.2016Examination requested  [2016/21]
28.09.2017Amendment by applicant (claims and/or description)
17.06.2019Communication of intention to grant the patent
10.10.2019Fee for grant paid
10.10.2019Fee for publishing/printing paid
10.10.2019Receipt of the translation of the claim(s)
Opposition(s)21.08.2020No opposition filed within time limit [2020/44]
Fees paidRenewal fee
10.06.2016Renewal fee patent year 03
16.06.2017Renewal fee patent year 04
22.11.2018Renewal fee patent year 05
25.06.2019Renewal fee patent year 06
Penalty fee
Additional fee for renewal fee
30.06.201805   M06   Fee paid on   22.11.2018
Opt-out from the exclusive  Tooltip
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Responsibility for the accuracy, completeness or quality of the data displayed under the link provided lies entirely with the Unified Patent Court.
Lapses during opposition  TooltipHU25.06.2014
AL20.11.2019
AT20.11.2019
CY20.11.2019
CZ20.11.2019
DK20.11.2019
EE20.11.2019
ES20.11.2019
FI20.11.2019
HR20.11.2019
IT20.11.2019
LT20.11.2019
LV20.11.2019
MC20.11.2019
MK20.11.2019
MT20.11.2019
NL20.11.2019
PL20.11.2019
RO20.11.2019
RS20.11.2019
SE20.11.2019
SI20.11.2019
SK20.11.2019
SM20.11.2019
TR20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
IS20.03.2020
PT12.04.2020
IE25.06.2020
LU25.06.2020
BE30.06.2020
CH30.06.2020
LI30.06.2020
[2022/32]
Former [2022/27]HU25.06.2014
AL20.11.2019
AT20.11.2019
CY20.11.2019
CZ20.11.2019
DK20.11.2019
EE20.11.2019
ES20.11.2019
FI20.11.2019
HR20.11.2019
IT20.11.2019
LT20.11.2019
LV20.11.2019
MC20.11.2019
MT20.11.2019
NL20.11.2019
PL20.11.2019
RO20.11.2019
RS20.11.2019
SE20.11.2019
SI20.11.2019
SK20.11.2019
SM20.11.2019
TR20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
IS20.03.2020
PT12.04.2020
IE25.06.2020
LU25.06.2020
BE30.06.2020
CH30.06.2020
LI30.06.2020
Former [2021/24]AL20.11.2019
AT20.11.2019
CZ20.11.2019
DK20.11.2019
EE20.11.2019
ES20.11.2019
FI20.11.2019
HR20.11.2019
IT20.11.2019
LT20.11.2019
LV20.11.2019
MC20.11.2019
NL20.11.2019
PL20.11.2019
RO20.11.2019
RS20.11.2019
SE20.11.2019
SI20.11.2019
SK20.11.2019
SM20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
IS20.03.2020
PT12.04.2020
IE25.06.2020
LU25.06.2020
BE30.06.2020
CH30.06.2020
LI30.06.2020
Former [2021/20]AL20.11.2019
AT20.11.2019
CZ20.11.2019
DK20.11.2019
EE20.11.2019
ES20.11.2019
FI20.11.2019
HR20.11.2019
IT20.11.2019
LT20.11.2019
LV20.11.2019
MC20.11.2019
NL20.11.2019
PL20.11.2019
RO20.11.2019
RS20.11.2019
SE20.11.2019
SI20.11.2019
SK20.11.2019
SM20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
IS20.03.2020
PT12.04.2020
IE25.06.2020
LU25.06.2020
CH30.06.2020
LI30.06.2020
Former [2021/15]AL20.11.2019
AT20.11.2019
CZ20.11.2019
DK20.11.2019
EE20.11.2019
ES20.11.2019
FI20.11.2019
HR20.11.2019
IT20.11.2019
LT20.11.2019
LV20.11.2019
MC20.11.2019
NL20.11.2019
PL20.11.2019
RO20.11.2019
RS20.11.2019
SE20.11.2019
SI20.11.2019
SK20.11.2019
SM20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
IS20.03.2020
PT12.04.2020
LU25.06.2020
Former [2021/10]AL20.11.2019
AT20.11.2019
CZ20.11.2019
DK20.11.2019
EE20.11.2019
ES20.11.2019
FI20.11.2019
HR20.11.2019
IT20.11.2019
LT20.11.2019
LV20.11.2019
MC20.11.2019
NL20.11.2019
PL20.11.2019
RO20.11.2019
RS20.11.2019
SE20.11.2019
SI20.11.2019
SK20.11.2019
SM20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
IS20.03.2020
PT12.04.2020
Former [2020/51]AL20.11.2019
AT20.11.2019
CZ20.11.2019
DK20.11.2019
EE20.11.2019
ES20.11.2019
FI20.11.2019
HR20.11.2019
LT20.11.2019
LV20.11.2019
NL20.11.2019
PL20.11.2019
RO20.11.2019
RS20.11.2019
SE20.11.2019
SI20.11.2019
SK20.11.2019
SM20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
IS20.03.2020
PT12.04.2020
Former [2020/37]AL20.11.2019
CZ20.11.2019
DK20.11.2019
EE20.11.2019
ES20.11.2019
FI20.11.2019
HR20.11.2019
LT20.11.2019
LV20.11.2019
NL20.11.2019
RO20.11.2019
RS20.11.2019
SE20.11.2019
SK20.11.2019
SM20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
IS20.03.2020
PT12.04.2020
Former [2020/36]AL20.11.2019
CZ20.11.2019
DK20.11.2019
EE20.11.2019
ES20.11.2019
FI20.11.2019
HR20.11.2019
LT20.11.2019
LV20.11.2019
NL20.11.2019
RO20.11.2019
RS20.11.2019
SE20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
IS20.03.2020
PT12.04.2020
Former [2020/35]AL20.11.2019
CZ20.11.2019
ES20.11.2019
FI20.11.2019
HR20.11.2019
LT20.11.2019
LV20.11.2019
NL20.11.2019
RO20.11.2019
RS20.11.2019
SE20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
IS20.03.2020
Former [2020/34]AL20.11.2019
ES20.11.2019
FI20.11.2019
HR20.11.2019
LT20.11.2019
LV20.11.2019
NL20.11.2019
RS20.11.2019
SE20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
IS20.03.2020
Former [2020/32]AL20.11.2019
FI20.11.2019
HR20.11.2019
LT20.11.2019
LV20.11.2019
NL20.11.2019
RS20.11.2019
SE20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
IS20.03.2020
Former [2020/26]FI20.11.2019
HR20.11.2019
LT20.11.2019
LV20.11.2019
NL20.11.2019
RS20.11.2019
SE20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
IS20.03.2020
Former [2020/24]FI20.11.2019
LT20.11.2019
LV20.11.2019
NL20.11.2019
SE20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
IS20.03.2020
Former [2020/23]FI20.11.2019
LT20.11.2019
LV20.11.2019
NL20.11.2019
SE20.11.2019
BG20.02.2020
NO20.02.2020
GR21.02.2020
Former [2020/22]FI20.11.2019
LT20.11.2019
SE20.11.2019
BG20.02.2020
NO20.02.2020
Former [2020/21]NO20.02.2020
Documents cited:Search[XYI]EP2239561  (UNIV GRAZ TECH [AT], et al) [X] 1,4,7-9,11,14,15 * figures 6, 11A-C,15 * * paragraphs [0030] , [0054] , [0055] , [0073] , [0075] , [0082] , [0083] * [Y] 2,3,10,13 [I] 5,6,12;
 [Y]EP2426487  (TRINITY COLLEGE DUBLIN [IE]) [Y] 2,10 * paragraphs [0034] , [0037] *;
 [Y]  - INHWA JUNG ET AL, "Effect of Water Vapor on Electrical Properties of Individual Reduced Graphene Oxide Sheets", JOURNAL OF PHYSICAL CHEMISTRY C, US, (20081225), vol. 112, no. 51, doi:10.1021/jp807525d, ISSN 1932-7447, pages 20264 - 20268, XP055347037 [Y] 2,3,13 * paragraphs [0001] , [0004] * * sentences 1-18, paragraph 2 *

DOI:   http://dx.doi.org/10.1021/jp807525d
 [A]  - S. BASU ET AL, "Recent developments on graphene and graphene oxide based solid state gas sensors", SENSORS AND ACTUATORS B: CHEMICAL: INTERNATIONAL JOURNAL DEVOTED TO RESEARCH AND DEVELOPMENT OF PHYSICAL AND CHEMICAL TRANSDUCERS, NL, (20121001), vol. 173, doi:10.1016/j.snb.2012.07.092, ISSN 0925-4005, pages 1 - 21, XP055347205 [A] 2,3,8-10 * paragraphs [02.4] , [00 3] , [00 4] , [ 4.2] *

DOI:   http://dx.doi.org/10.1016/j.snb.2012.07.092
International search[A]GB2145282  (EMI LTD, et al);
 [A]US2006263255  (HAN TZONG-RU [US], et al);
 [A]WO2008039165  (NANOMIX INC [US], et al);
 [A]EP2426487  (TRINITY COLLEGE DUBLIN [IE]);
 [A]US2013056839  (HOLM-KENNEDY JAMES [US])
by applicantEP2239561
 EP2426487
    - JUNG et al., "Effect of water vapor on electrical properties of individual reduced graphene oxide sheets", J. Phys. Chem. C, (20080000), vol. 112, no. 51, doi:doi:10.1021/jp807525d, pages 20264 - 20268, XP055347037

DOI:   http://dx.doi.org/10.1021/jp807525d
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