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Extract from the Register of European Patents

EP About this file: EP3414360

EP3414360 - DEVELOPMENT OF A SOL-GEL ANTICORROSION TREATMENT [Right-click to bookmark this link]
StatusNo opposition filed within time limit
Status updated on  04.12.2020
Database last updated on 06.07.2024
FormerThe patent has been granted
Status updated on  27.12.2019
FormerGrant of patent is intended
Status updated on  11.08.2019
FormerRequest for examination was made
Status updated on  16.11.2018
FormerThe international publication has been made
Status updated on  18.08.2017
Formerunknown
Status updated on  14.03.2017
Most recent event   Tooltip15.07.2022Lapse of the patent in a contracting state
New state(s): MK		published on 17.08.2022  [2022/33]
Applicant(s)For all designated states
Safran
2 boulevard du Général Martial Valin
75015 Paris / FR
For all designated states
RBnano
8 Avenue Dante
67200 Strasbourg / FR
For all designated states
Safran Landing Systems
7, rue Général Valérie André
Inovel Parc Sud
78140 Vélizy-Villacoublay / FR
[2018/51]
Inventor(s)01 / CAMBON, Jean-Baptiste
c/o SAFRAN AICRAFT ENGINES PI (AJI)
Rond-Point René Ravaud - Réau
77550 Moissy-Cramayel Cedex / FR
02 / ESTEBAN, Julien
41, rue du Fossé des Treize
67000 Strasbourg / FR
03 / MAFOUANA, Roland, Rodrigue
8, rue l'Elfterrain
67200 Strasbourg / FR
04 / RUETSCH, Jean-Philippe
55, Grand Rue
68130 Walheim / FR
 [2020/05]
Former [2018/51]01 / CAMBON, Jean-Baptiste
c/o SAFRAN AICRAFT ENGINES PI (AJI)
Rond-Point René Ravaud - Réau
77550 Moissy-Cramayel Cedex / FR
02 / ESTEBAN, Julien
41
rue du Fossé des Treize
67000 Strasbourg / FR
03 / MAFOUANA, Roland, Rodrigue
8
rue l'Elfterrain
67200 Strasbourg / FR
04 / RUETSCH, Jean-Philippe
55
Grand Rue
68130 Walheim / FR
Representative(s)Regimbeau
20, rue de Chazelles
75847 Paris Cedex 17 / FR
[2018/51]
Application number, filing date17708856.409.02.2017
[2018/51]
WO2017FR50301
Priority number, dateFR2016005099509.02.2016         Original published format: FR 1650995
[2018/51]
Filing languageFR
Procedural languageFR
PublicationType: A1 Application with search report
No.:WO2017137704
Date:17.08.2017
Language:FR
[2017/33]
Type: A1 Application with search report 
No.:EP3414360
Date:19.12.2018
Language:FR
The application published by WIPO in one of the EPO official languages on 17.08.2017 takes the place of the publication of the European patent application.
[2018/51]
Type: B1 Patent specification 
No.:EP3414360
Date:29.01.2020
Language:FR
[2020/05]
Search report(s)International search report - published on:EP17.08.2017
ClassificationIPC:C23C18/12, C09D5/08
[2018/51]
CPC:
C09D5/084 (EP,RU,US); B05D7/14 (US); C09D139/06 (RU,US);
C09D5/08 (EP,RU,US); C09D7/20 (US); C09D7/43 (US);
C09D7/61 (EP,US); C09D7/70 (EP,US); C23C18/122 (EP,RU,US);
C23C18/1241 (EP,RU,US); C23C18/1254 (EP,RU,US); C23C18/127 (EP,RU,US);
C23C18/1295 (EP,RU,US); C23C26/00 (US); C08K2003/0806 (EP,US);
C08K2003/085 (EP,US); C08K2201/001 (US); C08K2201/011 (US);
C08K3/046 (EP,US); C08K5/5435 (US); C23C2222/20 (EP,US) (-)
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 [2018/51]
Extension statesBANot yet paid
MENot yet paid
Validation statesMANot yet paid
MDNot yet paid
TitleGerman:ENTWICKLUNG EINER SOL-GEL-KORROSIONSSCHUTZBEHANDLUNG[2018/51]
English:DEVELOPMENT OF A SOL-GEL ANTICORROSION TREATMENT[2018/51]
French:ÉLABORATION D'UN TRAITEMENT ANTI-CORROSION PAR VOIE SOL-GEL[2019/36]
Former [2018/51]ELABORATION D'UN TRAITEMENT ANTI-CORROSION PAR VOIE SOL-GEL
Entry into regional phase03.09.2018National basic fee paid 
03.09.2018Designation fee(s) paid 
03.09.2018Examination fee paid 
Examination procedure03.09.2018Examination requested  [2018/51]
03.09.2018Date on which the examining division has become responsible
12.08.2019Communication of intention to grant the patent
16.12.2019Fee for grant paid
16.12.2019Fee for publishing/printing paid
16.12.2019Receipt of the translation of the claim(s)
Opposition(s)30.10.2020No opposition filed within time limit [2021/01]
Fees paidRenewal fee
20.02.2019Renewal fee patent year 03
Opt-out from the exclusive  Tooltip
competence of the Unified
Patent Court		 See the Register of the Unified Patent Court for opt-out data
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  TooltipHU09.02.2017
AL29.01.2020
AT29.01.2020
CY29.01.2020
CZ29.01.2020
DK29.01.2020
EE29.01.2020
ES29.01.2020
FI29.01.2020
HR29.01.2020
LT29.01.2020
LV29.01.2020
MC29.01.2020
MK29.01.2020
MT29.01.2020
NL29.01.2020
PL29.01.2020
RO29.01.2020
RS29.01.2020
SI29.01.2020
SK29.01.2020
SM29.01.2020
TR29.01.2020
IE09.02.2020
LU09.02.2020
BE29.02.2020
CH29.02.2020
LI29.02.2020
BG29.04.2020
NO29.04.2020
GR30.04.2020
IS29.05.2020
PT21.06.2020
[2022/31]
Former [2022/30]HU09.02.2017
AL29.01.2020
AT29.01.2020
CY29.01.2020
CZ29.01.2020
DK29.01.2020
EE29.01.2020
ES29.01.2020
FI29.01.2020
HR29.01.2020
LT29.01.2020
LV29.01.2020
MC29.01.2020
MT29.01.2020
NL29.01.2020
PL29.01.2020
RO29.01.2020
RS29.01.2020
SI29.01.2020
SK29.01.2020
SM29.01.2020
TR29.01.2020
IE09.02.2020
LU09.02.2020
BE29.02.2020
CH29.02.2020
LI29.02.2020
BG29.04.2020
NO29.04.2020
GR30.04.2020
IS29.05.2020
PT21.06.2020
Former [2022/27]HU09.02.2017
AT29.01.2020
CY29.01.2020
CZ29.01.2020
DK29.01.2020
EE29.01.2020
ES29.01.2020
FI29.01.2020
HR29.01.2020
LT29.01.2020
LV29.01.2020
MC29.01.2020
MT29.01.2020
NL29.01.2020
PL29.01.2020
RO29.01.2020
RS29.01.2020
SI29.01.2020
SK29.01.2020
SM29.01.2020
TR29.01.2020
IE09.02.2020
LU09.02.2020
BE29.02.2020
CH29.02.2020
LI29.02.2020
BG29.04.2020
NO29.04.2020
GR30.04.2020
IS29.05.2020
PT21.06.2020
Former [2021/11]AT29.01.2020
CZ29.01.2020
DK29.01.2020
EE29.01.2020
ES29.01.2020
FI29.01.2020
HR29.01.2020
LT29.01.2020
LV29.01.2020
MC29.01.2020
NL29.01.2020
PL29.01.2020
RO29.01.2020
RS29.01.2020
SI29.01.2020
SK29.01.2020
SM29.01.2020
IE09.02.2020
LU09.02.2020
BE29.02.2020
CH29.02.2020
LI29.02.2020
BG29.04.2020
NO29.04.2020
GR30.04.2020
IS29.05.2020
PT21.06.2020
Former [2021/08]CZ29.01.2020
DK29.01.2020
EE29.01.2020
ES29.01.2020
FI29.01.2020
HR29.01.2020
LT29.01.2020
LV29.01.2020
MC29.01.2020
NL29.01.2020
RO29.01.2020
RS29.01.2020
SK29.01.2020
SM29.01.2020
IE09.02.2020
LU09.02.2020
CH29.02.2020
LI29.02.2020
BG29.04.2020
NO29.04.2020
GR30.04.2020
IS29.05.2020
PT21.06.2020
Former [2020/52]CZ29.01.2020
DK29.01.2020
EE29.01.2020
ES29.01.2020
FI29.01.2020
HR29.01.2020
LT29.01.2020
LV29.01.2020
MC29.01.2020
NL29.01.2020
RO29.01.2020
RS29.01.2020
SK29.01.2020
SM29.01.2020
LU09.02.2020
CH29.02.2020
LI29.02.2020
BG29.04.2020
NO29.04.2020
GR30.04.2020
IS29.05.2020
PT21.06.2020
Former [2020/50]CZ29.01.2020
DK29.01.2020
EE29.01.2020
ES29.01.2020
FI29.01.2020
HR29.01.2020
LT29.01.2020
LV29.01.2020
MC29.01.2020
NL29.01.2020
RO29.01.2020
RS29.01.2020
SK29.01.2020
SM29.01.2020
LU09.02.2020
BG29.04.2020
NO29.04.2020
GR30.04.2020
IS29.05.2020
PT21.06.2020
Former [2020/49]CZ29.01.2020
DK29.01.2020
ES29.01.2020
FI29.01.2020
HR29.01.2020
LT29.01.2020
LV29.01.2020
MC29.01.2020
NL29.01.2020
RO29.01.2020
RS29.01.2020
SK29.01.2020
SM29.01.2020
LU09.02.2020
BG29.04.2020
NO29.04.2020
GR30.04.2020
IS29.05.2020
PT21.06.2020
Former [2020/48]DK29.01.2020
ES29.01.2020
FI29.01.2020
HR29.01.2020
LT29.01.2020
LV29.01.2020
NL29.01.2020
RO29.01.2020
RS29.01.2020
SM29.01.2020
LU09.02.2020
BG29.04.2020
NO29.04.2020
GR30.04.2020
IS29.05.2020
PT21.06.2020
Former [2020/47]DK29.01.2020
ES29.01.2020
FI29.01.2020
HR29.01.2020
LT29.01.2020
LV29.01.2020
NL29.01.2020
RS29.01.2020
LU09.02.2020
BG29.04.2020
NO29.04.2020
GR30.04.2020
IS29.05.2020
PT21.06.2020
Former [2020/45]FI29.01.2020
HR29.01.2020
LV29.01.2020
NL29.01.2020
RS29.01.2020
BG29.04.2020
NO29.04.2020
GR30.04.2020
IS29.05.2020
PT21.06.2020
Former [2020/40]FI29.01.2020
HR29.01.2020
LV29.01.2020
RS29.01.2020
BG29.04.2020
NO29.04.2020
GR30.04.2020
IS29.05.2020
PT21.06.2020
Former [2020/39]FI29.01.2020
HR29.01.2020
LV29.01.2020
RS29.01.2020
BG29.04.2020
NO29.04.2020
GR30.04.2020
PT21.06.2020
Former [2020/38]FI29.01.2020
HR29.01.2020
LV29.01.2020
RS29.01.2020
NO29.04.2020
GR30.04.2020
PT21.06.2020
Former [2020/37]FI29.01.2020
HR29.01.2020
LV29.01.2020
RS29.01.2020
NO29.04.2020
PT21.06.2020
Former [2020/35]FI29.01.2020
NO29.04.2020
Cited inInternational search[A]WO2006069376  (UNIV CINCINNATI [US], et al) [A] 1-15 * the whole document *;
 [A]WO2009069111  (DUBLIN INST OF TECHNOLOGY [IE], et al) [A] 1-15 * page 2, line 5 - page 3, line 29 * * page 5, line 7 - page 7, line 18 * * page 10, line 9 - page 13, line 8 * * page 13, line 12 - page 16, line 14 * * page 22, line 9 - page 23, line 13 * * page 23, line 15 - page 25, line 25 * * examples 17, 20 * * figures 1-4 * * claims 1-74 *;
 [A]US2014335275  (RYABOVA ELMIRA [US]) [A] 1-15 * page 1, paragraph 9 - page 3, paragraph 62 * * page 5, paragraph 130 - page 9, paragraph 164 * * page 9, paragraph 174 - page 10, paragraph 180 * * claims 1-20 *;
 [A]  - YUGANG SUN ET AL, "CRYSTALLINE SILVER NANOWIRES BY SOFT SOLUTION PROCESSING", NANO LETTERS, AMERICAN CHEMICAL SOCIETY, US, (20020103), vol. 2, no. 2, doi:10.1021/NL010093Y, ISSN 1530-6984, pages 165 - 168, XP008072569 [A] 4 * the whole document *

DOI:   http://dx.doi.org/10.1021/nl010093y
by applicant   - CAROLINE CELLE; CÉLINE MAYOUSSE; ELÉONORE MOREAU; HENDA BASTI; ALEXANDRE CARELLA; JEAN-PIERRE SIMONATO, "Highly Flexible Transparent Film Heaters Based on Random Networks of Silver Nanowires", NANO RES., (2012), vol. 5, no. 6, pages 427 - 433
    - TAKEHIRO TOKUNO; MASAYA NOGI; MAKOTO KARAKAWA; JINTING JIU; THI THI NGE; YOSHIO ASO; KATSUAKI SUGANUMA, "Fabrication of Silver Nanowire Transparent Electrodes at Room Temperature", NANO RES., (2011), vol. 4, no. 12, pages 1215 - 1222
    - LIANGBING HU; HAN SUN KIM; JUNG-YONG LEE; PETER PEUMANS; YI CUI, "Scalable Coating and Properties of Transparent, Flexible, Silver Nanowire Electrodes", ACSNANO, (2010), vol. 4, no. 5, pages 2955 - 2963
    - CAI-HONG LIU; XUN YU, "Silver nanowire-based transparent, flexible, and conductive thin film", NANOSCALE RESEARCH LETTERS, (2011), vol. 6, page 75
    - FREDERIK S. F. MORGENSTERN; DINESH KABRA; SYLVAIN MASSIP; THOMAS J. K. BRENNER; PHILIP E. LYONS ET AL., "Ag-nanowire films coated with ZnO nanoparticles as a transparent electrode for solar cells", APPL. PHYS. LETT., (2011), vol. 99, page 183307
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