IRIS
DI NARDO, PAOLO
 Distribuzione geografica
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Continente #
NA - Nord America 2.641
EU - Europa 1.850
AS - Asia 1.325
AF - Africa 60
OC - Oceania 55
SA - Sud America 36
Continente sconosciuto - Info sul continente non disponibili 3
Totale 5.970
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Nazione #
US - Stati Uniti d'America 2.552
DE - Germania 915
CN - Cina 511
IT - Italia 218
GB - Regno Unito 184
IN - India 178
FR - Francia 115
JP - Giappone 106
IR - Iran 96
CA - Canada 75
KR - Corea 71
ID - Indonesia 62
RU - Federazione Russa 54
CZ - Repubblica Ceca 53
AU - Australia 52
ES - Italia 42
IE - Irlanda 41
VN - Vietnam 36
TR - Turchia 35
NL - Olanda 34
SE - Svezia 34
HK - Hong Kong 33
PH - Filippine 29
SG - Singapore 26
MY - Malesia 24
TW - Taiwan 23
ZA - Sudafrica 23
FI - Finlandia 22
PK - Pakistan 22
PT - Portogallo 21
UA - Ucraina 21
BR - Brasile 19
AE - Emirati Arabi Uniti 18
RO - Romania 18
EG - Egitto 12
IQ - Iraq 12
HU - Ungheria 11
MX - Messico 10
CH - Svizzera 9
BG - Bulgaria 8
NG - Nigeria 8
OM - Oman 8
LT - Lituania 7
TH - Thailandia 7
BE - Belgio 6
AT - Austria 5
GR - Grecia 5
IL - Israele 5
LV - Lettonia 5
PE - Perù 5
PL - Polonia 5
SA - Arabia Saudita 5
CL - Cile 4
KW - Kuwait 4
MA - Marocco 4
DK - Danimarca 3
LI - Liechtenstein 3
NO - Norvegia 3
SD - Sudan 3
SI - Slovenia 3
VE - Venezuela 3
AR - Argentina 2
BD - Bangladesh 2
BH - Bahrain 2
CO - Colombia 2
CR - Costa Rica 2
GH - Ghana 2
LK - Sri Lanka 2
NZ - Nuova Zelanda 2
RW - Ruanda 2
SY - Repubblica araba siriana 2
TT - Trinidad e Tobago 2
A1 - Anonimo 1
A2 - ???statistics.table.value.countryCode.A2??? 1
BY - Bielorussia 1
DZ - Algeria 1
EC - Ecuador 1
ET - Etiopia 1
EU - Europa 1
FJ - Figi 1
IS - Islanda 1
JO - Giordania 1
KE - Kenya 1
KH - Cambogia 1
KZ - Kazakistan 1
LB - Libano 1
LU - Lussemburgo 1
MK - Macedonia 1
MN - Mongolia 1
PS - Palestinian Territory 1
SK - Slovacchia (Repubblica Slovacca) 1
TN - Tunisia 1
TZ - Tanzania 1
ZW - Zimbabwe 1
Totale 5.970
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Città #
Woodbridge 380
Houston 348
Fairfield 161
Santa Cruz 161
Ashburn 136
Ann Arbor 112
Buffalo 102
Wilmington 94
Beijing 93
Seattle 79
Shanghai 61
Cambridge 59
Nürnberg 52
Rome 40
Guangzhou 39
Tokyo 37
Dublin 36
Jakarta 33
San Diego 31
Hangzhou 28
Stockholm 25
University Park 25
Mountain View 23
Wuhan 22
Los Angeles 21
Nanjing 20
Chicago 19
Leawood 18
Toronto 18
London 17
Sevilla 17
Dong Ket 16
Taipei 16
Helsinki 15
Romeoville 15
Bengaluru 14
Las Vegas 14
Muizenberg 13
Sydney 13
Harbin 12
Ottawa 12
Phoenix 12
Seoul 12
Shenyang 12
Bangalore 11
Milan 11
Providence 11
Singapore 11
Atlanta 10
Boardman 10
Chengdu 10
Clearwater 10
Hefei 10
Québec 10
Simi Valley 10
Zhengzhou 10
Brno 9
Coimbatore 9
Delhi 9
Henderson 9
Ho Chi Minh City 9
Hong Kong 9
Scranton 9
Wenzhou 9
Ankara 8
Boston 8
Central 8
Paris 8
Barcelona 7
Bucharest 7
Chennai 7
Dallas 7
Menomonie 7
Nottingham 7
Osaka 7
Pittsburgh 7
Tehran 7
Amsterdam 6
Boulder 6
Central District 6
Changsha 6
Council Bluffs 6
Florianópolis 6
Frankfurt am Main 6
Gurgaon 6
Hanoi 6
Hudson 6
Ideh 6
Islamabad 6
Jinan 6
Kumar 6
Muscat 6
Napoli 6
Oxford 6
Portici 6
Prague 6
Richmond 6
Riva 6
Tianjin 6
Turin 6
Totale 2.912
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Nome #
Engineering materials and biology to boost performance of microbial fuel cells: a critical review., file e291c0d3-f7d7-cddb-e053-3a05fe0aa144 1.300
Cerium Oxide Nanoparticles Protect Cardiac Progenitor Cells from Oxidative Stress, file e291c0d4-6f2d-cddb-e053-3a05fe0aa144 907
Multiscale three-dimensional scaffolds for soft tissue engineering via multimodal electrospinning, file e291c0d4-524a-cddb-e053-3a05fe0aa144 802
Hippo pathway effectors control cardiac progenitor cell fate by acting as dynamic sensors of substrate mechanics and nanostructure, file e291c0d5-55af-cddb-e053-3a05fe0aa144 604
Investigating feedforward neural regulation of circulation from analysis of spontaneous arterial pressure and heart rate fluctuations in conscious rats., file e291c0d4-b4b2-cddb-e053-3a05fe0aa144 541
Scaffold-in-scaffold potential to induce growth and differentiation of cardiac progenitor cells, file e291c0d6-cee1-cddb-e053-3a05fe0aa144 361
Atrial natriuretic peptide effects on intracellular pH changes and ROS production in HEPG2 cells: Role of p38 MAPK and phospholipase D, file e291c0d3-e1a2-cddb-e053-3a05fe0aa144 308
Human cardiac progenitor cell grafts as unrestricted source of supernumerary cardiac cells in healthy murine hearts, file e291c0d5-55ad-cddb-e053-3a05fe0aa144 281
Substrate stiffness modulates gene expression and phenotype in neonatal cardiomyocytes in vitro, file e291c0d5-4e6e-cddb-e053-3a05fe0aa144 221
Engineering the Stem Cell Niche and the Differentiative Micro- and Macroenvironment: Technologies and Tools for Applying Biochemical, Physical and Structural Stimuli and Their Effects on Stem Cells, file e291c0d9-11c2-cddb-e053-3a05fe0aa144 150
Tuning hierarchical architecture of 3D polymeric scaffolds for cardiac tissue engineering, file e291c0d9-5b39-cddb-e053-3a05fe0aa144 117
Intrinsically conductive polymers for striated cardiac muscle repair, file e291c0d9-7938-cddb-e053-3a05fe0aa144 115
Inherently Bio-Active Scaffolds: Intelligent Constructs to Model the Stem Cell Niche, file e291c0d9-084b-cddb-e053-3a05fe0aa144 97
Nanoporous Microsponge Particles (NMP) of Polysaccharides as Universal Carriers for Biomolecules Delivery, file e291c0d8-df3f-cddb-e053-3a05fe0aa144 79
Hepatocyte growth factor effects on mesenchymal stem cells: Proliferation, migration, and differentiation, file e291c0d9-29c3-cddb-e053-3a05fe0aa144 70
Extrinsically conductive nanomaterials for cardiac tissue engineering applications, file e291c0d9-caf8-cddb-e053-3a05fe0aa144 52
Criticality of the biological and physical stimuli array inducing resident cardiac stem cell determination, file e291c0d9-11c1-cddb-e053-3a05fe0aa144 49
Nutrients: The environmental regulation of cardiovascular gene expression, file e291c0d9-3c3e-cddb-e053-3a05fe0aa144 42
Cardiac Regeneration: the Heart of the Issue, file e291c0d9-9c35-cddb-e053-3a05fe0aa144 41
Interfacing Sca-1pos mesenchymal stem cells with biocompatible scaffolds with different chemical composition and geometry, file e291c0d9-3f09-cddb-e053-3a05fe0aa144 37
Smart ECM-Based Electrospun Biomaterials for Skeletal Muscle Regeneration, file e291c0d9-b8a1-cddb-e053-3a05fe0aa144 27
From soft to hard biomimetic materials: tuning micro/nano-architecture of scaffolds for tissue regeneration, file c840543c-49f3-4ea7-a627-7e268fc9a646 17
Carbon nanomaterials-based electrically conductive scaffolds to repair the ischaemic heart tissue, file d85e5417-e905-4963-a641-a93fe85bdfcc 14
Electrically conductive scaffolds mimicking the hierarchical structure of cardiac myofibers, file 4e46cf88-3fb3-4d65-959b-c108bc93816d 11
Dietary flaxseed mitigates impaired skeletal muscle regeneration: In vivo, in vitro and in silico studies, file e291c0d8-a925-cddb-e053-3a05fe0aa144 9
null, file e291c0d8-dbfd-cddb-e053-3a05fe0aa144 3
A new strong-acid free route to produce xanthan gum-PANI composite scaffold supporting bioelectricity, file e1015b6e-ec4a-4d37-bbc8-143f661aea14 1
α-Linolenic Acid Reduces TNF-Induced Apoptosis in C2C12 Myoblasts by Regulating Expression of Apoptotic Proteins, file e291c0d6-4795-cddb-e053-3a05fe0aa144 1
Cardiac stem cells: potency and control., file e291c0d8-cc04-cddb-e053-3a05fe0aa144 1
Totale 6.258
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Categoria #
all - tutte 10.751
article - articoli 0
book - libri 0
conference - conferenze 0
curatela - curatele 0
other - altro 0
patent - brevetti 0
selected - selezionate 0
volume - volumi 0
Totale 10.751
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Totale Lug Ago Sett Ott Nov Dic Gen Feb Mar Apr Mag Giu
2018/2019345 0 0 0 0 0 0 0 0 0 112 118 115
2019/2020806 90 65 44 75 78 53 49 85 74 74 64 55
2020/2021719 33 72 39 61 67 61 59 36 64 106 62 59
2021/20221.151 108 51 65 195 130 65 65 59 91 51 194 77
2022/2023743 39 59 158 100 62 62 52 48 25 31 63 44
2023/2024491 60 34 50 30 52 40 61 61 65 38 0 0
Totale 6.258