Technology Built on Boron-Doped Diamond

Enabling application-specific, real-time metal monitoring through a scalable sensing platform.

Innovation

Boron-Doped Diamond (BDD) as the Core Technology

At the heart of the Holland Sensor Water Sensing Platform lies our Boron-Doped Diamond (BDD) sensing technology.

BDD’s chemical stability and wide electrochemical window enable stable, low-ppb metal detection in complex industrial water matrices where conventional sensor technologies face limitations.

Integrated within a dedicated electronics and software architecture, BDD forms the technological foundation of all Mizu® product lines.

Why Boron-Doped Diamond (BDD)?

Boron-Doped Diamond (BDD) is the sensing core of the Holland Sensor platform. Its electrochemical stability and material strength enable reliable metal detection in complex industrial water conditions.

Wide analytical window
Enables detection of multiple metals across a broad potential range.

Low background signal
Supports sensitive measurements at low ppb levels.

Mechanically and chemically stable
Hard crystalline carbon resistant to harsh industrial matrices.

Reduced fouling
Lower surface fouling compared to conventional electrode materials, resulting in higher operational stability and reduced maintenance.

Reference Measurement CORRECTS FOR interferents

This is an important characteristic of the measurement principle:

Unlike the current industry-standard laboratory methods, Holland Sensor’s portable instrument enables Reference Measurement. Through a second measurement step, the initial reading is calibrated, thereby effectively eliminating most matrix-related interferences. The outcome: significantly higher accuracy across a wide range of water types.

Technology Potential

Heavy metals (periodic table)

  • Now

  • Future

  • Potential targets

1 1.0078 H Hydrogen
2 4.0026 He Helium
3 6.9410 Li Lithium
14 9.0122 Be Beryllium
5 10.811 B Boron
6 12.011 C Carbon
7 14.007 N Nitrogen
8 15.999 O Oxygen
9 18.998 F Fluorine
10 20.180 Ne Neon
11 22.990 Na Sodium
12 24.305 Mg Magnesium
13 26.982 Al Aluminium
14 28.086 Si Silicon
15 30.974 P Phosphorus
16 32.065 S Sulfur
17 35.453 Cl Chlorine
18 39.948 Ar Argon
19 39.098 K Potassium
20 40.078 Ca Calcium
21 44.956 Sc Scandium
22 47.867 Ti Titanium
23 50.942 V Vanadium
24 51.996 Cr Chromium
25 54.938 Mn Manganese
26 55.845 Fe Iron
27 58.933 Co Cobalt
28 58.693 Ni Nickel
29 63.546 Cu Copper
30 65.380 Zn Zinc
31 69.723 Ga Gallium
32 72.640 Ge Germanium
33 74.922 As Arsenic
34 78.960 Se Selenium
35 79.904 Br Bromine
36 83.798 Kr Krypton
37 85.468 Rb Rubidium
38 87.620 Sr Strontium
39 88.906 Y Yttrium
40 91.224 Zr Zirconium
41 92.906 Nb Niobium
42 95.950 Mo Molybdenum
43 98 Tc Technetium
44 101.07 Ru Ruthenium
45 102.91 Rh Rhodium
46 106.42 Pd Palladium
47 107.87 Ag Silver
48 112.41 Cd Cadmium
49 114.82 In Indium
50 118.71 Sn Tin
51 121.76 Sb Antimony
52 127.60 Te Tellurium
53 126.90 I Iodine
54 131.29 Xe Xenon
55 132.91 Cs Caesium
56 137.33 Ba Barium
57 La Lanthanoids
72 178.49 Hf Hafnium
73 180.95 Ta Tantalum
74 183.84 W Tungsten
75 186.21 Re Rhenium
76 190.23 Os Osmium
77 192.22 Ir Iridium
78 195.08 Pt Platinum
79 196.97 Au Gold
80 200.59 Hg Mercury
81 204.38 Tl Thallium
82 207.2 Pb Lead
83 208.98 Bi Bismuth
84 209 Po Polonium
85 210 At Astatine
86 222 Rn Radon
87 223 Fr Francium
88 226 Ra Radium
89 Ac Actinoids
104 261 Rf Rutherfordium
105 262 Db Dubnium
106 271 Sg Seaborgium
107 264 Bh Bohrium
108 277 Hs Hassium
109 278 Mt Meitnerium
110 281 Ds Darmstadtium
111 282 Rg Roentgenium
112 285 Cn Copernicium
113 286 Nh Nihonium
114 289 Fl Flerovium
115 289 Mc Moscovium
116 293 Lv Livermorium
117 294 Ts Tennessine
118 294 Og Oganesson
58 140.12 Ce Cerium
59 140.91 Pr Praseodymium
60 144.24 Nd Neodymium
61 145 Pm Promethium
62 150.36 Sm Samarium
63 151.96 Eu Europium
64 157.25 Gd Gadolinium
65 158.93 Tb Terbium
66 162.50 Dy Dysprosium
67 164.93 Ho Holmium
68 167.26 Er Erbium
69 168.93 Tm Thulium
70 173.04 Yb Ytterbium
71 174.97 Lu Lutetium
90 232.04 Th Thorium
91 231.04 Pa Protactinium
92 238.03 U Uranium
93 237.05 Np Neptunium
94 244 Pu Plutonium
95 243 Am Americium
96 247 Cm Curium
97 247 Bk Berkelium
98 251 Cf Californium
99 252 Es Einsteinium
100 257 Fm Fermium
101 258 Md Mendelevium
102 259 No Nobelium
103 262 Lr Lawrencium

Heavy metals

Now

Cu
Zn
Ag
Cd
Hg
Pb

Copper
Zinc
Silver
Cadmium
Mercury
lead

Future

Cr
Cr3+
Cr6+
Mn
Ni
As
As3+
As5

Chromium
Chromium III
Chromium VI
Manganese
Nickel
Arsenic
Arsenic III
Arsenic V

Potential targets

N
Mg
Al
Si
P
Ca
Sc
Ti
V
Fe
Co
Ga
Ge
Sr
Y
Zr
Nb

Nitrogen
Magnesium
Aluminium
Silicon
Phosphorus
Calcium
Scandium
Titanium
Vanadium
Iron
Cobalt
Gallium
Germanium
Strontium
Yttrium
Zirconium
Niobium

Mo
Tc
Ru
Rh
Pd
In
Sn
Sb
Ba
La
Hf
Ta
W
Re
Os
Ir
Pt

Molybdenum
Technetium
Ruthenium
Rhodium
Palladium
Indium
Tin
Antimony
Barium
Lanthanum
Hafnium
Tantalum
Tungsten
Rhenium
Osmium
Iridium
Platinum

Au
Tl
Bi
Ra
Ac
Rf
Db
Sg
Bh
Hs
Mt
Ds
Rg
Cn
Ce
Pr
Nd

Gold
Thallium
Bismuth
Radium
Actinium
Rutherfordium
Dubnium
Seaborgium
Bohrium
Hassium
Meitnerium
Darmstadium
Roentgenium
Coppernicium
Cerium
Praseodymium
Neodymium

Pm
Sm
Eu
Gd
Tb
Th
Pa
U
Np
Pu
Am

Promethium
Samarium
Europium
Gadolinium
Terbium
Thorium
Protactinium
Uranium
Neptunium
Plutonium
Americium

Development history

From Concept to proven Leading Technology

2007

first need to show / prove actual Cu and Ag concentrations in treated water to clients

2008

2011

EU funded, CRAFT project in collaboration with University of Florence, Hochfachschule Köln, SME’s, Expert consultants

2013

2017

Development of the first sensor prototypes by Holland Water.

2017

Official establishment of Holland Sensor as a distinct entity within the Holland Environment Group, focusing exclusively on sensor technology.

2018

European patent application for the Holland Sensor technology.

2020

2021

First commercial installations at major locations such as Schiphol Airport, demonstrating the practical efficacy of our sensors.

2021

2024

Industrialization and verification of the sensor

2024

Patented excellence (EP4073501 and patent pending)

2025

Mizu®️ Portable System ready for fieldtesting

Patented excellence

(EP4073501 and 24199450.8)

Our dedication to innovation is cemented by our robust patent portfolio. The unique assembly of the BDD sensor, including its special electrode configurations, is patented, ensuring that we remain leaders in sensor technology. This patented technology is not only a testament to our technical capabilities but also to our commitment to providing our clients with cutting-edge solutions.

Granted

Brief Description:
an electrochemical sensor device and a method of performing electrochemical sensing in a flowing liquid.
Status:
patent granted, no opposition filed
Reference:
Application No. 20825018.3 – 1001
European Patent No. 4073501

Pending

Brief Description:
a comprehensive fluid testing system incorporating an electrochemical Boron Doped Diamond (BDD) sensor device, and a computer implemented method for measuring different substances/analytes using the fluid testing system.
Status:
patent application filed, currently pending
Reference:
Application No. 24199450.8, submitted on 10 September 2024

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Software & Platform Architecture

The Holland Sensor Water Sensing Platform integrates embedded control electronics with a secure cloud-based software environment.

Measurement data is automatically validated, structured and stored, enabling traceability, reporting and long-term performance monitoring across deployments.

The shared software architecture supports all Mizu® product lines and allows structured configuration per metal and application.

Structured On-Site Metal Monitoring

The platform enables application-specific metal monitoring directly at the point of use, reducing reliance on delayed laboratory workflows for defined use cases.

By combining BDD sensing, controlled electrochemical sequences and integrated validation logic, the system supports reliable decision-making in industrial water processes.

Platform Evolves Over Time

Through controlled firmware and software updates, the Holland Sensor platform can expand in supported metals, performance logic and validation routines.

This enables structured product evolution without replacing the underlying hardware architecture.

 

Technical Comparison

Mizu® Sensor

Atomic absorption sepctroscopy (AAS)

Electronic sensors

Inductively coupled plasma mass spectrometry (ICP-MS)

Markets

Laboratories, industry (mining, chemical, pharma, food, oil, water treatment, lab)

Laboratories, industry (chemical, pharma, food, oil, water treatment)

Laboratories, industry (chemical, pharma, food, oil, water treatment)

Laboratories, industry (chemical, pharma, food)

Accuracy

Environment impact

Reliability

Pricing of analysis

Applicability

Validated

Digitalised

TCO*

*Total Cost of Ownership

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