CRIS Current Research Information System

PASSERI, SAURO
 Distribuzione geografica
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Continente #
AS - Asia 3.079
NA - Nord America 2.577
EU - Europa 2.121
SA - Sud America 151
AF - Africa 129
OC - Oceania 3
Continente sconosciuto - Info sul continente non disponibili 1
Totale 8.061
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Nazione #
US - Stati Uniti d'America 2.550
VN - Vietnam 1.002
CN - Cina 862
SG - Singapore 690
GB - Regno Unito 577
DE - Germania 303
UA - Ucraina 281
IT - Italia 237
FR - Francia 171
HK - Hong Kong 171
SE - Svezia 159
IN - India 130
RU - Federazione Russa 121
BR - Brasile 108
IE - Irlanda 88
JP - Giappone 53
EE - Estonia 52
FI - Finlandia 48
CI - Costa d'Avorio 38
ZA - Sudafrica 38
JO - Giordania 31
SC - Seychelles 30
PH - Filippine 21
IR - Iran 19
KR - Corea 19
BG - Bulgaria 18
TH - Thailandia 16
AR - Argentina 15
CA - Canada 15
TG - Togo 14
BD - Bangladesh 13
BE - Belgio 13
NL - Olanda 10
TR - Turchia 9
CH - Svizzera 8
ID - Indonesia 8
TW - Taiwan 8
CL - Cile 7
ES - Italia 7
GR - Grecia 7
MX - Messico 6
IQ - Iraq 5
UZ - Uzbekistan 5
VE - Venezuela 5
EC - Ecuador 4
LU - Lussemburgo 4
PE - Perù 4
PL - Polonia 4
PY - Paraguay 4
AU - Australia 3
CY - Cipro 3
LB - Libano 3
SA - Arabia Saudita 3
AE - Emirati Arabi Uniti 2
BZ - Belize 2
CO - Colombia 2
CR - Costa Rica 2
EG - Egitto 2
ET - Etiopia 2
LT - Lituania 2
PK - Pakistan 2
RO - Romania 2
TN - Tunisia 2
A2 - ???statistics.table.value.countryCode.A2??? 1
AZ - Azerbaigian 1
BH - Bahrain 1
BY - Bielorussia 1
CZ - Repubblica Ceca 1
DK - Danimarca 1
GA - Gabon 1
GT - Guatemala 1
HN - Honduras 1
HU - Ungheria 1
KE - Kenya 1
KZ - Kazakistan 1
MA - Marocco 1
MD - Moldavia 1
MT - Malta 1
MY - Malesia 1
NO - Norvegia 1
RS - Serbia 1
SI - Slovenia 1
SR - Suriname 1
UY - Uruguay 1
Totale 8.061
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Città #
Southend 512
Singapore 472
Dong Ket 228
Ashburn 224
Jacksonville 219
Santa Clara 199
Chandler 180
Hong Kong 160
San Jose 151
Ho Chi Minh City 146
Hanoi 143
Fairfield 136
Princeton 111
Beijing 99
Wilmington 99
Dublin 88
Ann Arbor 82
Woodbridge 81
Seattle 69
Boardman 64
Nanjing 64
Los Angeles 56
Jinan 55
Westminster 55
Lauterbourg 54
Padova 52
Houston 51
Cambridge 49
Helsinki 48
Tokyo 46
Medford 43
Berlin 41
Abidjan 38
Hefei 38
Guangzhou 36
Mülheim 35
Changsha 33
Shenyang 33
Amman 31
Saint Petersburg 30
Buffalo 27
Mahé 27
Tianjin 23
Frankfurt am Main 22
Nanchang 22
Bologna 21
Dallas 20
Des Moines 20
Milan 19
Haikou 17
Hangzhou 17
Pune 17
Sofia 17
Hebei 16
Da Nang 15
Shanghai 15
Haiphong 14
Lomé 14
New York 14
San Diego 14
Zhengzhou 14
Brussels 13
Dearborn 13
Lanzhou 13
Yubileyny 13
Falls Church 12
Shenzhen 11
Falkenstein 10
Paris 10
Redondo Beach 10
Redwood City 10
Seoul 10
Jiaxing 9
Ningbo 9
Verona 9
Olalla 8
The Dalles 8
Ardabil 7
Atlanta 7
Brooklyn 7
Hải Dương 7
São Paulo 7
Taiyuan 7
Taizhou 7
Thái Nguyên 7
Wuhan 7
Biên Hòa 6
Boston 6
Bühl 6
Fuzhou 6
Monmouth Junction 6
Phoenix 6
Ravenna 6
Toronto 6
Bangkok 5
Bern 5
Bắc Ninh 5
Can Tho 5
Chengdu 5
Chicago 5
Totale 5.045
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Nome #
Catalytic methylation of phenol on MgO – Surface chemistry and mechanism 218
A cascade mechanism for a simple reaction: The gas-phase methylation of phenol with methanol 217
The balance of acid, basic and redox sites in Mg/Me-mixed oxides: The effect on catalytic performance in the gas-phase alkylation of m-cresol with methanol 206
A comparison of the reaction mechanism for the gas-phase methylation of phenol with methanol catalyzed by acid and by basic catalysts 195
A two-step process for the synthesis of hydroxytyrosol 191
A reactivity and computational study of the basic-catalyzed methylation of phenol with methanol 190
A redox approach for the production of H2 b y two-step methanol reforming 188
A redox cycle approach for the production of H2 by two-step methanol reforming 188
A comparison of the reaction mechanism in acid- and base-catalyzed gas-phase methylation of phenol 185
The transformations involving methanol in the acid- and base-catalyzed gas-phase methylation of phenol 183
A comparison of catalytic performance of acid and basic systems in phenol methylation: a reactivity and computational approach 183
Zeolite catalysts for phenol benzoylation with benzoic acid: Exploring the synthesis of hydroxybenzophenones 182
A study of the mechanism of gas-phase phenol methylation with basic catalysts 180
Gas-phase phenol methylation over Mg/Me/O (Me = Al, Cr, Fe) catalysts: mechanistic implications due to different acid–base and dehydrogenating properties 180
Mg/Ga mixed-oxide catalysts for phenol methylation: Outstanding performance in 2,4,6-trimethylphenol synthesis with co-feeding of water 178
A new domino-type mechanism for a classical reaction: the gas-phase phenol methylation 177
A study of the mechanism of gas-phase phenol methylation with acid and basic catalysts 174
A cycle redox approach for the production of H2 by methanol reforming over Co/Fe spinel-type mixed oxides: the role of spinel crystallinity on reactivity 174
A study of the mechanism of gas-phase phenol methylation with acid and basic catalysts 169
A redox cycle approach for the production of H2 by methanol reforming 164
A study of the reaction mechanism in the gas-phase methylation of phenol: a comparison between acid and basic catalysis 160
IR spectroscopic and catalytic characterization of the acidity of imogolite-based systems 154
A redox cycle approach for the production of H2, by two-step methanol reforming 154
A redox cycle approach for the production of H2 by two-step methanol reforming 153
Mechanistic studies of the role of formaldehyde in the gas-phase methylation of phenol 151
“A study of the mechanism of gas-phase phenol methylation with acid and basic catalysts” 148
Methanol as the precursor oft the true electrophilic reactant in the multi-step methylation of phenolics catalysed by mixed metal oxides: superior performance of FeVO4 catalyst 147
A study of the mechanism of gas-phase phenol methylation with basic catalysts 142
Study of the acidic properties of imogolite-based systems 140
The environmental benign, liquid-phase benzoylation of phenol catalyzed by H-b zeolite 139
Basic mixed oxides for gas-phase phenol methylation: the role of catalyst composition in the reaction mechanism 139
Methylation of phenol over high-silica beta zeolite: Effect of zeolite acidity and crystal size on catalyst behaviour 137
A study of the mechanism of gas-phase phenol methylation with acid and basic catalysts 137
On the mechanism of gas-phase methylation of phenol catalysed by MgO: a combined computational, in-situ spectroscopic and reactivity approach 137
A redox cycle approach for the production of H2 by two-step methanol reforming 137
A redox cyclic approach for the production of H2 by two-step methanol reforming 136
Effect of crystal size on catalytic behaviour og high-silica H-beta zeolites 128
Methylation of phenol with methanol over high-silica beta zeolite: the effect of zeolite characteristics on catalytic performance 126
Water splitting con riduzione chimica: studio delle proprieta’ catalitiche di ossidi misti con struttura spinello 124
Methylation of phenol with methanol over high-silica beta zeolite. Effect of zeolite acidity and crystal size on catalyst behaviour 123
Phenol methylation over nanoparticulate CoFe2O4 inverse spinel catalysts: The effect of morphology on catalytic performance 122
The mechanism of the gas-phase phenol methylation with basic catalysts 120
Gas-phase phenol methylation opver Mg/Me/O (Me=Al, Cr, Fe) catalysts: mechanistic implications due to different acid-base and dehydrogenating properties 118
The use of bi-functional Mg/Me mixed oxides in the reaction of phenol methylation 115
On the mechanism of gas-phase methylation of phenol catalyzed by MgO: a combined computational, in-situ spectroscopic and reactivity approach 115
Surface and catalytic properties of imogolite nanotube 114
Environmentally friendly, heterogeneous acid and base catalysis for the methylation of phenol and 1,2-diphenol 114
FT-IR and catalytic characterization of the acidity of imogolite-based systems 113
Surface and catalytic properties of imogolite nanotube 109
The effect of crystalite size on the catalytic performance of spinel-type mixed oxides in phenol methylation 108
Methylation of phenol over high-silica H-BEA zeolites. Effect of catalyst characteristics on catalytic performance 107
The use of bi-functional Mg/Fe mixed oxides in the reaction of phenol methylation 107
“Low temperature two-step process for hydrogen production” 106
Study of a reaction mechanism: the reaction of phenol methylation on bi-functional Mg/Me mixed oxides 103
FT-IR and catalytic characterization of the acidity of Imogolite-based systems 98
Totale 8.203
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Categoria #
all - tutte 19.655
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 19.655
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Totale Lug Ago Sett Ott Nov Dic Gen Feb Mar Apr Mag Giu
2020/2021391 0 0 0 0 0 0 0 0 0 48 54 289
2021/2022981 267 47 39 60 96 60 17 44 29 10 119 193
2022/2023934 99 151 58 108 46 62 19 35 188 39 94 35
2023/2024288 14 45 16 43 34 77 16 7 2 13 1 20
2024/20251.180 32 221 81 64 273 92 68 28 12 48 39 222
2025/20262.172 88 177 209 119 344 173 164 98 619 181 0 0
Totale 8.203