PORTO @ Archivio Istituzionale della Ricerca

CAROSIO, FEDERICO
 Distribuzione geografica
Salva come PNG Salva come JPEG
Continente #
EU - Europa 15.538
NA - Nord America 14.144
AS - Asia 7.124
SA - Sud America 802
AF - Africa 234
OC - Oceania 27
Continente sconosciuto - Info sul continente non disponibili 8
AN - Antartide 1
Totale 37.878
Salva come PNG Salva come JPEG
Nazione #
US - Stati Uniti d'America 13.341
DE - Germania 4.741
IT - Italia 3.067
CN - Cina 2.907
GB - Regno Unito 2.701
SG - Singapore 2.291
FR - Francia 1.828
CA - Canada 758
UA - Ucraina 734
BR - Brasile 670
KR - Corea 559
NL - Olanda 461
TR - Turchia 397
RU - Federazione Russa 372
IE - Irlanda 328
SE - Svezia 261
VN - Vietnam 240
CH - Svizzera 228
FI - Finlandia 197
HK - Hong Kong 180
IN - India 134
BE - Belgio 130
SN - Senegal 129
AT - Austria 105
JP - Giappone 85
ID - Indonesia 66
ES - Italia 64
AR - Argentina 51
IL - Israele 39
RO - Romania 35
IR - Iran 34
JO - Giordania 34
BG - Bulgaria 33
PL - Polonia 29
IQ - Iraq 27
CI - Costa d'Avorio 25
EU - Europa 25
MX - Messico 25
MY - Malesia 25
BD - Bangladesh 24
PK - Pakistan 24
AU - Australia 23
CL - Cile 22
EC - Ecuador 22
MA - Marocco 22
UZ - Uzbekistan 21
ZA - Sudafrica 20
AP - ???statistics.table.value.countryCode.AP??? 19
PH - Filippine 19
SA - Arabia Saudita 17
EG - Egitto 16
LT - Lituania 16
SI - Slovenia 15
HR - Croazia 14
CO - Colombia 12
CZ - Repubblica Ceca 11
DK - Danimarca 10
GR - Grecia 10
TH - Thailandia 10
KE - Kenya 8
KZ - Kazakistan 8
PY - Paraguay 8
TW - Taiwan 8
VE - Venezuela 8
AE - Emirati Arabi Uniti 7
NO - Norvegia 7
RS - Serbia 7
OM - Oman 6
AL - Albania 5
DZ - Algeria 5
MK - Macedonia 5
DO - Repubblica Dominicana 4
EE - Estonia 4
NP - Nepal 4
NZ - Nuova Zelanda 4
PE - Perù 4
PT - Portogallo 4
TT - Trinidad e Tobago 4
AZ - Azerbaigian 3
BY - Bielorussia 3
CR - Costa Rica 3
LB - Libano 3
LU - Lussemburgo 3
NG - Nigeria 3
UY - Uruguay 3
A2 - ???statistics.table.value.countryCode.A2??? 2
BH - Bahrain 2
BO - Bolivia 2
BW - Botswana 2
ET - Etiopia 2
HU - Ungheria 2
JM - Giamaica 2
KG - Kirghizistan 2
LK - Sri Lanka 2
MD - Moldavia 2
NI - Nicaragua 2
PA - Panama 2
A1 - Anonimo 1
AM - Armenia 1
AQ - Antartide 1
Totale 37.861
Salva come PNG Salva come JPEG
Città #
Ashburn 3.087
Southend 1.816
Beijing 1.377
Seattle 1.370
Singapore 1.185
Fairfield 709
Chandler 679
Montréal 649
Princeton 530
Mcallen 507
Munich 447
Turin 440
Houston 372
Jacksonville 369
Cambridge 356
Woodbridge 351
Ann Arbor 331
Shanghai 322
Berlin 315
Torino 312
Dublin 304
Milan 304
Izmir 276
Boardman 271
Dallas 258
Chicago 247
Zhengzhou 241
Des Moines 239
Wilmington 236
Santa Clara 227
Herkenbosch 224
Frankfurt 197
Bern 196
San Ramon 165
San Donato Milanese 152
Helsinki 134
Brussels 125
Seoul 122
Hong Kong 121
Council Bluffs 103
Zaporozhye 103
Valfenera 93
Ho Chi Minh City 89
Pennsylvania Furnace 89
Monopoli 87
Los Angeles 82
Baltimore 81
Buffalo 81
Vienna 79
Bremen 74
Overland Park 72
Hangzhou 69
Amsterdam 65
Saint Petersburg 65
Overberg 62
Mountain View 60
Hanoi 53
Jakarta 52
São Paulo 52
Guangzhou 50
Redwood City 43
Hefei 42
San Diego 41
New York 40
London 39
Atlanta 37
Lappeenranta 37
San Jose 37
Tokyo 37
Padua 36
Pietra Ligure 36
Toronto 36
Fremont 33
Sakarya 32
Madrid 31
Paris 31
Nacka 30
Wantage 30
Chengdu 29
Norwalk 29
Sofia 29
Bristol 28
Putian 28
Rome 28
Redondo Beach 27
Frankfurt am Main 26
Melun 26
Yubileyny 26
Istanbul 25
Rio de Janeiro 25
Suzhou 25
Abidjan 24
Columbus 24
San Mateo 24
The Dalles 24
Tianjin 24
Zhitomir 24
Terrebonne 23
Bergamo 21
Frankfurt Am Main 21
Totale 22.332
Salva come PNG Salva come JPEG
Nome #
Materials Engineering For Surface-Confined Flame Retardancy 851
Flame retardancy properties of nanoparticle-based fabrics 806
Layer by layer assembly of nanoarchitectures to enhance the flame retardancy of PET fabrics 754
Layer by layer assembly of smart-nanocoatings to enhance the flame retardancy of pet fabrics 736
Thermally insulating and fire-retardant lightweight anisotropic foams based on nanocellulose and graphene oxide 543
DNA: a novel, green, natural flame retardant and suppressant for cotton 461
Thermal stability and flame retardancy of polyester fabrics sol-gel treated in the presence of boehmite nanoparticles 426
α-zirconium phosphate-based nanoarchitectures on polyester fabrics through Layer-by-Layer assembly 421
Caseins and hydrophobins as novel green flame retardants for cotton fabrics 414
Biomacromolecules as novel green flame retardant systems for textiles: an overview 406
Layer by layer assembly of silica-based flame retardant thin film on PET fabric 377
Layer by Layer coatings assembled through dipping, vertical or horizontal spray for cotton flame retardancy 375
A comparative analysis of nanoparticle adsorption as fire-protection approach for fabrics 373
Bulk or surface treatments of ethylene vinyl acetate copolymers with DNA: investigation on the flame retardant properties 371
Intrinsic intumescent-like flame retardant properties of DNA-treated cotton fabrics 370
Utilizzo della tecnica di deposizione layer by layer per la protezione dei materiali 349
Permeation behavior of Polysulfone membranes modified by fully organic Layer by Layer assemblies 343
Polypropylene-based ferromagnetic composites 342
Layer by Layer ammonium polyphosphate-based coatings for flame retardancy of polyester-cotton blends 341
Thermal Stability and Flame Retardancy of Polyester, Cotton, and Relative Blend Textile Fabrics Subjected to Sol–Gel Treatments 338
A new era for flame retardant materials? 335
Biomacromolecules as novel green flame retardants for cotton fabrics 334
Utilizzo di biomacromolecole come ritardanti di fiamma per tessuti 328
Layer by Layer complex architectures based on ammonium polyphosphate, chitosan and silica on polyester-cotton blends: flammability and combustion behaviour 324
Layer by Layer assembly of nanostructured coatingsfor flame retardancy and barrier properties 321
Layer by layer assembly of flame retardant thin films on closed cell PET foams: efficiency of ammonium polyphosphate versus DNA 320
Optimization of the procedure to burn textile fabrics by cone calorimeter: part I. Combustion behavior of polyester 319
All-polymer Layer by Layer coating as efficient solution to polyurethane foam flame retardancy 317
Influence of surface activation by plasma and nanoparticle adsorption on the morphology, thermal stability and combustion behavior of PET fabrics 315
Current emerging techniques to impart flame retardancy to fabrics 314
UV-cured hybrid organic-inorganic Layer by Layer assemblies: effect on the flame retardancy of polycarbonate films 312
Layer by Layer nanoarchitectures for the surface protection of polycarbonate 310
DNA: un nuovo ritardante di fiamma per copolimeri etilene-vinilacetato 309
Textile Flame Retardancy Through Assembled Nanoarchitectures: From Single-step To Multi-step Nanoparticle Adsorption 308
Tunable thermal and flame response of phosphonated oligoallylamines layer by layer assemblies on cotton 307
Tuning the Nanocellulose-Borate Interaction to Achieve Highly Flame Retardant Hybrid Materials 306
Flame retardancy of polyester fabrics treated by spray-assisted Layer by Layer silica architectures 305
Influence of ammonium polyphosphate-/poly(acrylic acid)- based Layer by Layer architectures on the char formation in cotton, polyester and their blends 304
Flame retardant properties of ethylene vinyl acetate copolymers melt-compounded with deoxyribonucleic acid in the presence of α-cellulose or β-cyclodextrins 302
Self-Assembled Hybrid Nanoarchitectures Deposited on Poly(urethane) Foams Capable of Chemically Adapting to Extreme Heat 299
Layer by Layer Assembly: A Current Emerging Technique for Conferring Flame Retardancy 297
Flammability and combustion properties of ammonium polyphosphate-/poly(acrylic acid)- based Layer by Layer architectures deposited on cotton, polyester and their blends 297
Green DNA-based flame retardant coatings assembled through Layer by Layer 295
Update on Flame Retardant textiles: State of the art, Environmental Issues and Innovative Solutions 292
Optimization of the procedure to burn textile fabrics by cone calorimeter: combustion behavior of neat and nanoparticle-finished polyester 290
Flame retardancy of polyester and polyester-cotton blends treated with caseins 289
DNA Coatings from Byproducts: A Panacea for the Flame Retardancy of EVA, PP, ABS, PET, and PA6? 284
Innovative flame retardant coatings via layer by layer assembly on PET textiles 284
Fire resistance of polyester, cotton and relative blend textile fabrics treated by sol-gel processes 284
Layer by Layer: COATING NANOMETRICI per il ritardo alla fiamma dei tessuti 283
Few durable layers suppress cotton combustion due to the joint combination of layer by layer assembly and UV-curing 283
Intumescent features of nucleic acids and proteins 280
Layer by Layer-functionalized rice husk particles: A novel and sustainable solution for particleboard production 280
A dielectric study on colloidal silica nanoparticle Layer-by-Layer assemblies on polycarbonate 273
Oriented clay nanopaper from biobased components--mechanisms for superior fire protection properties 271
How much the fabric grammage may affect cotton combustion? 268
Textile flame retardancy through surface-assembled nanoarchitectures 264
Nanoparticles as promising flame retardant additives for textile fabrics 260
Starch-Based Layer by Layer Assembly: Efficient and Sustainable Approach to Cotton Fire Protection 259
Layer by layer assembly of flame retardant nanoarchitectures on PET fabrics 259
Studio sulle proprietà di ritardo alla fiamma di tessuti contenenti nanoparticelle 258
Controlling the melt dripping of polyester fabrics by tuning the ionic strength of polyhedral oligomeric silsesquioxane and sodium montmorillonite coatings assembled through Layer by Layer 256
Layer-by-Layer Nanostructured Coatings for Flame Retardancy 254
Dielectric properties of UV-cured epoxy films treated with Layer-by-Layer nanosilica architectures 253
Layer by layer assembly of nanoarchitectures to enhance the flame retardancy of PET fabrics 252
Innovative Solutions To Enhance The Flame Retardancy Properties Of Natural And Synthetic Fabrics: Sol-Gel, Dual-Cure Processes And Layer By Layer Assembly 251
A CLASSIFICATION OF BIOPOLYMER AND BIOCOMPOSITES IN TERMS OF FLAME RETARDANCY 247
Plasma surface activation with nanoparticle adsorption to improve flame retardant properties of PET fabrics 246
Efficient Gas and Water Vapor Barrier Properties of Thin Poly(lactic acid) Packaging Films: Functionalization with Moisture Resistant Nafion and Clay Multilayers 244
Flame Retardancy through Layer by Layer assembly 242
Layer by layer assembly of smart-nanocoatings on polyester fabrics 241
Nanoparticle-based Textile 241
Layer by Layer: nanometric coatings for PET flame retardancy 234
Plasma surface activation combined with nanoparticle adsorption to improve flame retardancy of PET fabrics 229
Phosphorylated Cellulose Nanofibrils: A Renewable Nanomaterial for the Preparation of Intrinsically Flame-Retardant Materials 228
Use of nanoparticles for the surface-confined flame retardancy of textiles 227
Layer by Layer Assembly of fire proofing coatings for textiles, films and foams 226
Growth and fire resistance of colloidal silica-polyelectrolite thin film assemblies 220
Hydrated Salt/Graphite/Polyelectrolyte Organic-Inorganic Hybrids for Efficient Thermochemical Storage 220
Micro- and nanocomposites with tailored magnetic behaviour 219
Polymer nanocomposites for gas barrier in packaging: bulk inclusion vs. surface deposition 219
Textile flame retardancy through layer by layer assembled nanoarchitectures 218
Clay nanopaper as multifunctional brick and mortar fire protection coating-Wood case study 217
Layer-by-Layer assemblies on Polycarbonate: a dielectric study 212
Sustainable and High Performing Biocomposites with Chitosan/Sepiolite Layer-by-Layer Nanoengineered Interphases 212
CFD Modeling of a Laboratory-Scale Setup for Thermochemical Materials Performance Analysis 211
Ultra-Fast Layer-by-Layer Approach for Depositing Flame Retardant Coatings on Flexible PU Foams within Seconds 210
Nanoparticle as promising flame retardant additives for textile fabrics 209
Combining plasma surface activation and nanoparticle adsorption to improve flame retardancy on PET fabrics 205
Improving the flame retardant efficiency of layer by layer coatings containing deoxyribonucleic acid by post-diffusion of hydrotalcite sanoparticles 204
Fire retardance by surface nanostructuration 203
Study on Flame Retardancy properties of nanoparticles-based textile fabrics 202
Layer by layer assembly of PET textile fabrics with flame retardant properties 197
Study of Flame Retardancy Properties of nanoparticle-based textile fabrics 195
Layer by Layer assembly of nanoarchitectures to enhance the flame retardancy properties of PET and PET-cotton fabrics 194
Polymer micro- and nanocomposites with tailored magnetic behaviour 189
Influence of layer by layer coatings containing octapropylammonium polyhedral oligomeric silsesquioxane and ammonium polyphosphate on the thermal stability and flammability of acrylic fabrics 187
Layer by Layer assembly for foams functionalisation 184
Extreme Thermal Shielding Effects in Nanopaper Based on Multilayers of Aligned Clay Nanoplatelets in Cellulose Nanofiber Matrix 178
Flame-Retardant Paper from Wood Fibers Functionalized via Layer-by-Layer Assembly 175
Totale 30.087
Salva come PNG Salva come JPEG
Categoria #
all - tutte 103.632
article - articoli 63.644
book - libri 802
conference - conferenze 37.739
curatela - curatele 0
other - altro 0
patent - brevetti 0
selected - selezionate 0
volume - volumi 563
Totale 206.380
Salva come PNG Salva come JPEG


Totale Lug Ago Sett Ott Nov Dic Gen Feb Mar Apr Mag Giu
2020/20211.270 0 0 0 0 0 158 94 122 80 623 134 59
2021/20221.641 53 97 19 99 67 48 54 54 119 160 372 499
2022/20233.065 276 461 121 188 314 382 393 144 220 100 97 369
2023/2024867 59 74 49 69 70 66 57 81 53 53 103 133
2024/20253.380 59 558 191 430 244 156 185 228 536 211 226 356
2025/20263.822 582 455 777 907 629 472 0 0 0 0 0 0
Totale 38.156