LITERATURE SURVEY

Photovoltaics literature survey (No. 94)

Santosh Shrestha*

School of Photovoltaic and Renewable Energy Engineering, University of New South Wales, Sydney, NSW 2052, Australia

1. FUNDAMENTALS, NEW APPROACHES, AND
REVIEWS

Cataldo S, Salice P, Menna E, et al. Carbon nanotubes and organic solar
cells

. Energy & Environmental Science 2012; 5(3): 5919

–5940.

Ermer JH, Jones RK, Hebert P, et al. Status of C3MJ+ and C4MJ
production concentrator solar cells at Spectrolab

. IEEE Journal of

Photovoltaics 2012; 2(2): 209

–213.

Dou LT, You JB, Yang J, et al. Tandem polymer solar cells featuring a
spectrally matched low-bandgap polymer

. Nature Photonics 2012; 6(3):

180

–185.

Green MA, Pillai S. Harnessing plasmonics for solar cells. Nature
Photonics 2012; 6(3): 130

–132.

Luque A, Marti A, Stanley C. Understanding intermediate-band solar
cells

. Nature Photonics 2012; 6(3): 146

–152.

Sargent EH. Colloidal quantum dot solar cells. Nature Photonics 2012;
6

(3): 133

–135.

Small CE, Chen S, Subbiah J, et al. High-ef

ficiency inverted dithienogermole-

thienopyrrolodione-based polymer solar cells

. Nature Photonics 2012; 6(2):

115

–120.

Li Z, Zhao X, Lu X, et al. Organic thin-

film solar cells: devices and

materials

. Science China: Chemistry 2012; 55(4): 553

–578.

2. GENERAL CHARACTERISATION
TECHNIQUES AND MODELLING

Holovsky J, Bonnet-Eymard M, Bugnon G, et al. Measurement of the
open-circuit voltage of individual subcells in a dual-junction solar cell

.

IEEE Journal of Photovoltaics 2012; 2(2): 164

–168.

Kasemann M, Reindl LM, Michl B, et al. Contactless qualitative series
resistance imaging on solar cells

. IEEE Journal of Photovoltaics 2012;

2

(2): 181

–183.

Petermann JH, Ohrdes T, Altermatt PP, et al. 19% ef

ficient thin-film

crystalline silicon solar cells from layer transfer using porous silicon:
a loss analysis by means of three-dimensional simulations

. IEEE

Transactions on Electron Devices 2012; 59(4): 909

–917.

Raghavan A, Palmer TA, DebRoy T. Evolution of laser-

fired aluminum-

silicon contact geometry in photovoltaic devices

. Journal of Applied

Physics 2012; 111(2): 024903.
Wen ZL, Wang WJ, Zhou CL, et al. Analytical solution for the photocur-
rent of solar cells with internal re

flection. Journal of Applied Physics

2012; 111(3): 034502.

Shuo L, Shengwei Z, Xiaomei C, et al. Simulation of doping levels and
deep levels in InGaN-based single-junction solar cell

. Journal of

Materials Science 2012; 47(11): 4595

–4603.

Singh KJ, Sarkar SK. Highly ef

ficient ARC less InGaP/GaAs DJ solar

cell numerical modeling using optimized InAlGaP BSF layers

. Optical

and Quantum Electronics 2012; 43(1

–5): 1–21.

Vaxenburg R, Lifshitz E. Alloy and heterostructure architectures as
promising tools for controlling electronic properties of semiconductor
quantum dots

. Physical Review B 2012; 85(7): 075304.

Khatib T, Mohamed A, Sopian K. A review of solar energy modeling
techniques

. Renewable and Sustainable Energy Reviews 2012; 16(5):

2864

–2869.

AlHajri MF, El-Naggar KM, AlRashidi MR, et al. Optimal extraction
of solar cell parameters using pattern search

. Renewable Energy 2012;

44

(0): 238

–245.

Patra JC, Maskell DL. Modeling of multi-junction solar cells for estima-
tion of EQE under in

fluence of charged particles using artificial neural

networks

. Renewable Energy 2012; 44(0): 7

–16.

Brus VV. On impedance spectroscopy analysis of nonideal heterojunc-
tions

. Semiconductor Science and Technology 2012; 27(3): 035024.

Brus VV. Open-circuit analysis of thin

film heterojunction solar cells.

Solar Energy 2012; 86(5): 1600

–1604.

3. CRYSTALLINE SILICON

—BULK CELLS

AND TECHNOLOGY

Wang Z, Han P, Lu H, et al. Advanced PERC and PERL production
cells with 20.3% record ef

ficiency for standard commercial p-type

silicon wafers

. Progress in Photovoltaics: Research and Applications

2012; 20(3): 260

–268.

Vermang B, Goverde H, Tous L, et al. Approach for Al

2

O

3

rear surface

passivation of industrial p-type Si PERC above 19

%. Progress in

Photovoltaics: Research and Applications 2012; 20(3): 269

–273.

Chen DM, Liang ZC, Zhuang L, et al. A novel method to achieve selective
emitter for silicon solar cell using low cost pattern-able a-Si thin

films

as the semi-transparent phosphorus diffusion barrier

. Applied Energy

2012; 92: 315

–321.

Guoping D, Bin C, Nan C, et al. Ef

ficient boron doping in the back

surface

field of crystalline silicon solar cells via alloyed-aluminum-

boron paste

. IEEE Electron Device Letters 2012; 33(4): 573

–575.

Hauser H, Michl B, Schwarzkopf S, et al. Honeycomb texturing of silicon
via nanoimprint lithography for solar cell applications

. IEEE Journal of

Photovoltaics 2012; 2(2): 114

–122.

In order to help keep readers up-to-date in the

field, each issue of Progress in Photovoltaics will contain a list of recently

published journal articles most relevant to its aims and scope. This list is drawn from an extremely wide range of journals,
including IEEE Transactions on Electron Devices, Journal of Applied Physics, Applied Physics Letters, Progress in Photo-
voltaics, and Solar Energy Materials and Solar Cells. To assist the reader, the list is separated into broad categories, but
please note that these classi

fications are by no means strict. Also note that inclusion in the list is not an endorsement of

a paper

’s quality. If you have any suggestions, please email Santosh Shrestha at s.shrestha@unsw.edu.au.

PROGRESS IN PHOTOVOLTAICS: RESEARCH AND APPLICATIONS

Prog. Photovolt: Res. Appl. 2012; 20:501–504

Published online in Wiley Online Library (wileyonlinelibrary.com). DOI: 10.1002/pip.2245

Copyright © 2012 John Wiley & Sons, Ltd.

501

Kim DH, Ryu SS, Shin D, et al. The fabrication of front electrodes of Si
solar cell by dispensing printing

. Materials Science and Engineering B

2012; 177(2): 217

–222.

Lee J, Lee YJ, Ju M, et al. A novel method for crystalline silicon
solar

cells

with

low

contact

resistance

and

antire

flection

coating by an oxidized Mg layer

. Nanoscale Research Letters

2012; 7(1

–5): 32.

Huang CK, Sun KW, Chang WL. Ef

ficiency enhancement of silicon solar

cells using a nano-scale honeycomb broadband anti-re

flection struc-

ture

. Optics Express 2012; 20(1): A85

–A93.

Bousbih R, Dimassi W, Haddadi I, et al. Silicon lifetime enhancement by
SiN

x

:H anti-re

flective coating deposed by PECVD using SiH

4

and N

2

reactive gas

. Solar Energy 2012; 86(5): 1300

–1305.

Derbali L, Ezzaouia H. Vanadium-based antire

flection coated on

multicrystalline silicon acting as a passivating layer

. Solar Energy

2012; 86(5): 1504

–1510.

Lin LJH, Chiou YP. Improving thin-

film crystalline silicon solar cell

ef

ficiency with back surface field layer and blaze diffractive grating.

Solar Energy 2012; 86(5): 1485

–1490.

Xiao C, Yang D, Yu X, et al. Effect of dopant compensation on the
performance of Czochralski silicon solar cells

. Solar Energy Materials

and Solar Cells 2012; 101(0): 102

–106.

Yang Y, Pillai S, Mehrvarz H, et al. Enhanced light trapping for
high ef

ficiency crystalline solar cells by the application of rear sur-

face plasmons

. Solar Energy Materials and Solar Cells 2012; 101(0):

217

–226.

4. THIN FILM, AMORPHOUS AND MICRO/
NANO-CRYSTALLINE SILICON,
HETEROJUNCTION CELLS

Banerjee A, Liu FS, Beglau D, et al. 12.0% ef

ficiency on large-area,

encapsulated, multijunction nc-Si:H-based solar cells

. IEEE Journal of

Photovoltaics 2012; 2(2): 104

–108.

Boccard M, Cuony P, Battaglia C, et al. Nanometer- and micrometer-
scale texturing for high-ef

ficiency micromorph thin-film silicon solar

cells

. IEEE Journal of Photovoltaics 2012; 2(2): 83

–87.

Park H, Tark SJ, Kim CS, et al. Effect of the phosphorus gettering on Si
heterojunction solar cells

. International Journal of Photoenergy 2012:

794876.
Hong L, Wang XC, Rusli, et al. Crystallization and surface texturing of
amorphous-Si induced by UV laser for photovoltaic application

.

Journal of Applied Physics 2012; 111(4): 043106.
Bozzola A, Liscidini M, Andreani LC. Photonic light-trapping versus
Lambertian limits in thin

film silicon solar cells with 1D and 2D

periodic patterns

. Optics Express 2012; 20(6): 224

–244.

Dixit SK, Madan S, Madhwal D, et al. Bulk heterojunction formation
with induced concentration gradient from a bilayer structure of
P3HT:CdSe/ZnS quantum dots using inter-diffusion process for
developing high ef

ficiency solar cell. Organic Electronics 2012; 13(4):

710

–714.

Johlin E, Tabet N, Castro-Galnares S, et al. Structural origins of intrinsic
stress in amorphous silicon thin

films. Physical Review B 2012; 85(7):

075202.
Abass A, Le KQ, Alu A, et al. Dual-interface gratings for broadband
absorption enhancement in thin-

film solar cells. Physical Review B

2012; 85(11): 115449.
Lin LJH, Chiou YP. Improving thin-

film crystalline silicon solar cell

ef

ficiency with back surface field layer and blaze diffractive grating.

Solar Energy 2012; 86(5): 1485

–1490.

Söderström K, Bugnon G, Haug FJ, et al. Experimental study of

flat light-

scattering substrates in thin-

film silicon solar cells. Solar Energy

Materials and Solar Cells 2012; 101(0): 193

–199.

Song YM, Jang JH, Lee JC, et al. Disordered submicron structures
integrated on glass substrate for broadband absorption enhancement
of thin-

film solar cells. Solar Energy Materials and Solar Cells 2012;

101

(0): 73

–78.

5. ORGANIC AND HYBRID CELLS

Subbiah J, Amb CM, Irfan I, et al. High-ef

ficiency inverted polymer solar

cells with double interlayer

. ACS Applied Materials & Interfaces 2012;

4

(2): 866

–870.

Wei GD, Xiao X, Wang SY, et al. Functionalized squaraine donors
for nanocrystalline organic photovoltaics

. ACS Nano 2012; 6(1):

972

–978.

Fan X, Cui CH, Fang GJ, et al. Ef

ficient Polymer solar cells based on

poly(3-hexylthiophene):indene-C70 bisadduct with a MoO

3

buffer

layer

. Advanced Functional Materials 2012; 22(3): 585

–590.

He LN, Jiang CY, Wang H, et al. Effects of nanowire texturing on the
performance of Si/organic hybrid solar cells fabricated with a 2.2

mm

thin-

film Si absorber. Applied Physics Letters 2012; 100(10): 103104.

Yip HL, Jen AKY. Recent advances in solution-processed interfacial
materials for ef

ficient and stable polymer solar cells. Energy & Environ-

mental Science 2012; 5(3): 5994

–6011.

Feron K, Zhou X, Belcher WJ, et al. Exciton transport in organic semi-
conductors: Förster resonance energy transfer compared with a simple
random walk

. Journal of Applied Physics 2012; 111(4): 044510.

Kejia L, Lijun L, Campbell JC. Recombination lifetime of free polarons
in polymer/fullerene bulk heterojunction solar cells

. Journal of Applied

Physics 2012; 111(3): 034503.
Saunders BR. Hybrid polymer/nanoparticle solar cells: preparation,
principles and challenges

. Journal of Colloid and Interface Science

2012; 369: 1

–15.

Zhang FT, Han XY, Lee ST, et al. Heterojunction with organic thin layer
for three dimensional high performance hybrid solar cells

. Journal of

Materials Chemistry 2012; 22(12): 5362

–5368.

Paulus GLC, Moon-Ho H, Strano MS. Anomalous thickness-dependence
of

photocurrent

explained

for

state-of-the-art

planar

nano-

heterojunction organic solar cells

. Nanotechnology 2012; 23(9): 095402.

Jeon SO, Lee JY. Improved lifetime in organic solar cells using a bilayer
cathode of organic interlayer/Al

. Solar Energy Materials and Solar Cells

2012; 101(0): 160

–165.

6. PHOTOELECTROCHEMICAL CELLS

Weerasinghe HC, Sirimanne PM, Simon GP, et al. Cold isostatic pressing
technique for producing highly ef

ficient flexible dye-sensitised solar

cells on plastic substrates

. Progress in Photovoltaics: Research and Appli-

cations 2012; 20(3): 321

–332.

Boix PP, Lee YH, Fabregat-Santiago F, et al. From

flat to nanostructured

photovoltaics: balance between thickness of the absorber and charge
screening in sensitized solar cells

. ACS Nano 2012; 6(1): 873

–880.

Li Q, Zhao J, Sun BQ, et al. High-temperature solid-state dye-sensitized
solar cells based on organic ionic plastic crystal electrolytes

. Advanced

Materials 2012; 24(7): 945.
Liu CY, Huang KC, Wang CC, et al. Enhanced ef

ficiency of dye-

sensitized solar cells with counter electrodes consisting of platinum nano-
particles and nanographites

. Electrochimica Acta 2012; 59: 128

–134.

Cheng M, Yang XC, Li SF, et al. Ef

ficient dye-sensitized solar cells based

on an iodine-free electrolyte using

L

-cysteine/

L

-cystine as a redox

couple

. Energy & Environmental Science 2012; 5(4): 6290

–6293.

Han LY, Islam A, Chen H, et al. High-ef

ficiency dye-sensitized solar cell

with a novel co-adsorbent

. Energy & Environmental Science 2012; 5(3):

6057

–6060.

Hsieh TL, Chen HW, Kung CW, et al. A highly ef

ficient dye-sensitized

solar cell with a platinum nano

flowers counter electrode. Journal of

Materials Chemistry 2012; 22(12): 5550

–5559.

Fan SQ, Geng Y, Kim C, et al. Correlating the photovoltaic performance
of alumina modi

fied dye-sensitized solar cells with the properties of

metal-free organic sensitizers

. Materials Chemistry and Physics 2012;

132

(2

–3): 943–949.

Lv ZB, Yu JF, Wu HW, et al. Highly ef

ficient and completely flexible

fiber-shaped dye-sensitized solar cell based on TiO

2

nanotube array

.

Nanoscale 2012; 4(4): 1248

–1253.

Photovoltaics literature survey (No. 94)

S. Shrestha

502

Prog. Photovolt: Res. Appl. 2012; 20:501–504 © 2012 John Wiley & Sons, Ltd.

DOI: 10.1002/pip

Xin XK, Wang J, Han W, et al. Dye-sensitized solar cells based on a
nanoparticle/nanotube bilayer structure and their equivalent circuit
analysis

. Nanoscale 2012; 4(3): 964

–969.

Hao YM, Lou SY, Zhou SM, et al. Enhancement of the photoelectric
performance of dye-sensitized solar cells using Ag-doped TiO

2

nano

fibers in a TiO2 film as electrode. Nanoscale Research Letters

2012; 7: 1

–9.

Velten J, Mozer AJ, Li D, et al. Carbon nanotube/graphene nano-
composite as ef

ficient counter electrodes in dye-sensitized solar cells.

Nanotechnology 2012; 23(8): 085201.
Baraton MI. Nano-TiO

2

for dye-sensitized solar cells

. Recent Patents on

Nanotechnology 2012; 6(1): 10

–15.

7. CIS, CIGS, CdTe, AND II

–VI CELLS

Pianezzi F, Chirila

˘ A, Blösch P, et al. Electronic properties of Cu(In,Ga)

Se

2

solar cells on stainless steel foils without diffusion barrier

. Progress

in Photovoltaics: Research and Applications 2012; 20(3): 253

–259.

Li TL, Lee YL, Teng H. High-performance quantum dot-sensitized solar
cells based on sensitization with CuInS

2

quantum dots/CdS hetero-

structure

. Energy & Environmental Science 2012; 5(1): 5315

–5324.

Decock K, Zabierowski P, Burgelman M. Modeling metastabilities in
chalcopyrite-based thin

film solar cells. Journal of Applied Physics

2012; 111(4): 043703.
Lu ZZ, Xu J, Xie X, et al. CdS/CdSe double-sensitized ZnO nanocable
arrays synthesized by chemical solution method and their photovoltaic
applications

. Journal of Physical Chemistry C 2012; 116(4): 2656

–2661.

Ueng HY, Yang SY. Electrodeposition of stoichiometric CdTe thin

film

for photovoltaic application

. Journal of Renewable and Sustainable

Energy 2012; 4(1): 011605.
Anjun H, Yi Z, Wei S, et al. Structure, morphology and properties of
thinned Cu(In,Ga)Se

2

films and solar cells. Semiconductor Science and

Technology 2012; 27(3): 035022.

8. III

–V, QUANTUM WELL, SPACE,

CONCENTRATOR, AND
THERMOPHOTOVOLTAIC CELLS

Courel M, Rimada JC, Hernandez L. GaAs/GaInNAs quantum well and
superlattice solar cell

. Applied Physics Letters 2012; 100(7): 073508.

de Arquer FPG, Beck FJ, Bernechea M, et al. Plasmonic light trapping
leads to responsivity increase in colloidal quantum dot photodetectors

.

Applied Physics Letters 2012; 100(4): 043101.
Lu HF, Mokkapati S, Fu L, et al. Plasmonic quantum dot solar cells for
enhanced infrared response

. Applied Physics Letters 2012; 100(10):

103505.
Shahrjerdi D, Bedell SW, Ebert C, et al. High-ef

ficiency thin-film InGaP/

InGaAs/Ge tandem solar cells enabled by controlled spalling technol-
ogy

. Applied Physics Letters 2012; 100(5): 053901.

Hirai Y, Nagashima H, Kurokawa Y, et al. Experimental and Theoretical
Evaluation of Cu(In,Ga)Se

2

Concentrator Solar Cells

. Japanese Journal

of Applied Physics 2012; 51(1): 014101.
Kyusang L, Zimmerman JD, Xin X, et al. Reuse of GaAs substrates for
epitaxial lift-off by employing protection layers

. Journal of Applied

Physics 2012; 111(3): 033527.
Chihhui W, Neuner B, III, John J, et al. Metamaterial-based integrated
plasmonic absorber/emitter for solar thermo-photovoltaic systems

.

Journal of Optics 2012; 14(2): 024005.
Chien-Chung L, Hsin-Chu C, Yu Lin T, et al. Highly ef

ficient CdS-

quantum-dot-sensitized GaAs solar cells

. Optics Express 2012; 20(6):

319

–326.

Nawaz M, Ahmad A. A TCAD-based modeling of GaN/InGaN/Si solar
cells

. Semiconductor Science and Technology 2012; 27(3): 035019.

Diedenhofen SL, Grzela G, Haverkamp E, et al. Broadband and omnidi-
rectional anti-re

flection layer for III/V multi-junction solar cells. Solar

Energy Materials and Solar Cells 2012; 101(0): 308

–314.

9. TERRESTRIAL MODULES, BOS
COMPONENTS, BUILDING INTEGRATED,
SYSTEMS, AND APPLICATIONS

Mäki A, Valkealahti S, Leppäaho J. Operation of series-connected
silicon-based photovoltaic modules under partial shading conditions

.

Progress in Photovoltaics: Research and Applications 2012; 20(3):
298

–309.

Sadineni SB, Atallah F, Boehm RF. Impact of roof integrated PV orien-
tation on the residential electricity peak demand

. Applied Energy 2012;

92

: 204

–210.

Baker KA, Karp JH, Tremblay EJ, et al. Reactive self-tracking solar
concentrators: concept, design, and initial materials characterization

.

Applied Optics 2012; 51(8): 1086

–1094.

Badran O, Mamlook R, Abdulhadi E. Toward clean environment:
evaluation of solar electric power technologies using fuzzy logic

. Clean

Technologies and Environmental Policy 2012; 14(2): 357

–367.

Hwang T, Kang S, Kim JT. Optimization of the building integrated
photovoltaic system in of

fice buildings—focus on the orientation,

inclined angle and installed area

. Energy and Buildings 2012;

46

: 92

–104.

Koutroulis E, Blaabjerg F. A new technique for tracking the global
maximum power point of PV arrays operating under partial-shading
conditions

. IEEE Journal of Photovoltaics 2012; 2(2): 184

–190.

Maki A, Valkealahti S. Power losses in long string and parallel-
connected short strings of series-connected silicon-based photovoltaic
modules due to partial shading conditions

. IEEE Transactions on Energy

Conversion 2012; 27(1): 173

–183.

Chen SM, Liang TJ, Yang LS, et al. A safety enhanced, high step-up DC

–

DC converter for AC photovoltaic module application

. IEEE Transac-

tions on Power Electronics 2012; 27(4): 1809

–1817.

Zheng Z, Ming X, Qiaoliang C, et al. Derivation, analysis, and
implementation of a boost

–buck converter-based high-efficiency

PV inverter

. IEEE Transactions on Power Electronics 2012; 27(3):

1304

–1313.

Khatib T, Mohamed A, Sopian K, et al. A new approach for optimal
sizing of standalone photovoltaic systems

. International Journal of

Photoenergy 2012: 391213.
Gomez-Lorente D, Alameda-Hernandez E, Dols FA, et al. Grid-connected
photovoltaic-systems design using evolutionary strategies

. Journal of

Renewable and Sustainable Energy 2012; 4(1): 013123.
Fekete K, Klaic Z, Majdandzic L. Expansion of the residential photovol-
taic systems and its harmonic impact on the distribution grid

. Renew-

able Energy 2012; 43(0): 140

–148.

Fernandez-Jimenez LA, Muñoz-Jimenez A, Falces A, et al. Short-term
power forecasting system for photovoltaic plants

. Renewable Energy

2012; 44(0): 311

–317.

Ghani F, Duke M, Carson JK. Effect of

flow distribution on the photovoltaic

performance of a building integrated photovoltaic/thermal (BIPV/T)
collector

. Solar Energy 2012; 86(5): 1518

–1530.

Osinniy V, Nylandsted Larsen A, Hvidsten Dahl E, et al. Gettering
improvements of minority-carrier lifetimes in solar grade silicon

. Solar

Energy Materials and Solar Cells 2012; 101(0): 123

–130.

10. POLICY, ECONOMICS, EDUCATION,
HEALTH, ENVIRONMENT, AND THE SOLAR
RESOURCE

Rossi B, Marique AF, Glaumann M, et al. Life-cycle assessment of resi-
dential buildings in three different European locations, basic tool

.

Building and Environment 2012; 51: 395

–401.

Espinosa N, Hosel M, Angmo D, et al. Solar cells with one-day energy
payback for the factories of the future

. Energy & Environmental Science

2012; 5(1): 5117

–5132.

Powell DM, Winkler MT, Choi HJ, et al. Crystalline silicon photovol-
taics: a cost analysis framework for determining technology pathways

Photovoltaics literature survey (No. 94)

S. Shrestha

503

Prog. Photovolt: Res. Appl. 2012; 20:501–504 © 2012 John Wiley & Sons, Ltd.
DOI: 10.1002/pip

to reach baseload electricity costs

. Energy & Environmental Science

2012; 5(3): 5874

–5883.

Garcia-Olivares A, Ballabrera-Poy J, Garcia-Ladona E, et al. A global
renewable mix with proven technologies and common materials

.

Energy Policy 2012; 41: 561

–574.

Bajpai P, Dash V. Hybrid renewable energy systems for power genera-
tion in stand-alone applications: A review

. Renewable and Sustainable

Energy Reviews 2012; 16(5): 2926

–2939.

Richter M. Utilities

’ business models for renewable energy: a review.

Renewable and Sustainable Energy Reviews 2012; 16(5): 2483

–2493.

Marques AC, Fuinhas JA. Are public policies towards renewables
successful? Evidence from European countries

. Renewable Energy

2012; 44(0): 109

–118.

Marszal AJ, Heiselberg P, Lund Jensen R, et al. On-site or off-site renew-
able energy supply options? Life cycle cost analysis of a net zero energy
building in Denmark

. Renewable Energy 2012; 44(0): 154

–165.

Walker SL. Can the GB feed-in tariff deliver the expected 2% of electricity
from renewable sources? Renewable Energy

2012; 43(0): 383

–388.

Otanicar T, Taylor RA, Phelan PE. Prospects for solar cooling

—an economic

and environmental assessment

. Solar Energy 2012; 86(5): 1287

–1299.

Photovoltaics literature survey (No. 94)

S. Shrestha

504

Prog. Photovolt: Res. Appl. 2012; 20:501–504 © 2012 John Wiley & Sons, Ltd.

DOI: 10.1002/pip